ccm320a_8MB_p2mp configuration parameters

NOTE: The 'default' values for each parameter shown in the next table are the ones the modem would boot with if the 'permanent storage database' was not available (maybe because it became corrupted). In normal circumnstances you are probably more interested in the values contained in the attached *.txt files.

Name
Description
Type
Indexed
Read
Write
Stored
Auto-stored
API-set-only
Default value
Unit
Range
AFE.GENERAL.BIAS_LDCOAXLine Driver bias level (Coax or Phone). Changes are applied after reset. This parameter produces a change in power consumption. Do not modify this parameter without advice1xINT8U *** *   4N/A Only 3 bits are valid: 0 to 7
AFE.GENERAL.BIAS_LDPLCLine Driver bias level (PLC Only). Changes are applied after reset. This parameter produces a change in power consumption. Do not modify this parameter without advice1xINT8U *** *   3N/A Only 3 bits are valid: 0 to 7
AFE.GENERAL.CHANNEL_MAP[4][7]Channel map information table. Describes how external AFE are connected to the DFE. Each row of this table is assigned to one external AFE, following the next relation between idx and AFEId and VSEL:
AFE.GENERAL.CHANNEL_MAP.1 => Describes connection between AFE with AFEId 0 (VSEL = GND).
AFE.GENERAL.CHANNEL_MAP.2 => Describes connection between AFE with AFEId 1 (VSEL = 1V5).
AFE.GENERAL.CHANNEL_MAP.3 => Describes connection between AFE with AFEId 2 (VSEL = 3V3).
AFE.GENERAL.CHANNEL_MAP.4 => Describes connection between AFE with AFEId 3 (VSEL = 5V).
Each row, comprise the next parameters:
AFE.GENERAL.CHANNEL_MAP.1.1 => DACn_TXIn. Indicates which DACx pin from DFE is connected to TXIn pin of the given external AFE.
AFE.GENERAL.CHANNEL_MAP.1.2 => ADCn_RXOutA. Indicates which ADCx pin from DFE is connected to RXOutA pin of the given external AFE.
AFE.GENERAL.CHANNEL_MAP.1.3 => ADCn_RXOutB. Indicates which ADCx pin from DFE is connected to RXOutB pin of the given external AFE.
AFE.GENERAL.CHANNEL_MAP.1.4 => mediaAvailable. Indicates for which media will be used this external AFE. It is a bitmap, where bit 0 stand for PLC, bit 1 for Phone and bit 2 for Coax. A 0x7 value stand for all media, meanwhile 0x6 stands for Phone and Coax, e.g.
AFE.GENERAL.CHANNEL_MAP.1.5 => txPort. Indicates which Tx Port is assigned to this AFE. TxPort 1 is the main one used at SISO. TxPort and RxPort should be equal.
AFE.GENERAL.CHANNEL_MAP.1.6 => rxPort. Indicates which Rx Port is assigned to this AFE. RxPort 1 is the main one used at SISO. In MIMO, it should be RxPort 2. In 3x2 MIMO, it should be RxPort 2 as it provides also RxPort3.
AFE.GENERAL.CHANNEL_MAP.1.7 => provides3rdPort. In case 3x2 MIMO, if given external AFE provides 2nd and 3rd Port.
28xINT32U**** *   2,2,4,3,2,2,1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,1,3,1,7,1,1,0N/A N/A
AFE.GENERAL.CHANNEL_MAP_DESC[85]Gets the column description for the AFE.GENERAL.CHANNELMAP parameter.85xCHAR *        N/A N/A
AFE.GENERAL.DIGITAL_AFEUsed to enable or disable the digital AFE. Only available in NATO.1xBOOL *** *   NON/A N/A
AFE.GENERAL.GPO_TX_POLARITYGPO Polarity. TRUE: high in TX, low in RX. FALSE: Low in TX, high in RX1xBOOL *** *   YESN/A N/A
AFE.GENERAL.ID[4]Retrieve current AFE Id.4xINT32U *       0,0,0,0N/A N/A
AFE.GENERAL.INTERNAL_FILTERS_ENABLEEnable/disable AFE Internal Filters.1xBOOL *** *   YESN/A N/A
AFE.GENERAL.ITEMP_TMON_ENABLEEnable/disable AFE ITEMP temperature monitor.1xBOOL *** *   NON/A N/A
AFE.GENERAL.ITEMP_TMON_STATUSReports the current status of AFE ITEMP temperature monitor.1xBOOL *       NON/A N/A
AFE.GENERAL.REVISION[4]Retrieve current AFE Revision.4xINT32U *       0,0,0,0N/A N/A
AFE.GENERAL.RXEQ_GAINRx Equalizer gain1xINT16U *** *   0In 10*dBs See AFE documentation for more details
AGC.GENERAL.MAX_PSD[3]Maximum Tx PSD value, adjusted according to the final design. Used for internal calcs to adjust the target PSD.3xINT16S ***     -60,-76,-70dBm/Hz N/A
AGC.GENERAL.RX_ENABLETo enable/disable the hardware AGC Rx function.1xBOOL **      YESN/A N/A
AGC.GENERAL.RX_GAIN_CH1Gain used in Rx Channel 1 when the hardware AGC Rx function is disabled. If 0, the AFE Rx will be configured in powerdown.1xINT8U **      0Gain index. dB/index depends on the AFE used (for 88LX2720 each adds 2 dB and valid range is 0-31). N/A
AGC.GENERAL.RX_GAIN_CH2Gain used in Rx Channel 2 when the hardware AGC Rx function is disabled. If 0, the AFE Rx will be configured in powerdown.1xINT8U **      0Gain index. dB/index depends on the AFE used (for 88LX2720 each adds 2 dB and valid range is 0-31). N/A
AGC.GENERAL.RX_GAIN_CH3Gain used in Rx Channel 3 when the hardware AGC Rx function is disabled. If 0, the AFE Rx will be configured in powerdown.1xINT8U **      0Gain index. dB/index depends on the AFE used (for 88LX2720 each adds 2 dB and valid range is 0-31). N/A
AGC.GENERAL.RX_GAIN_CH4Gain used in Rx Channel 4 when the hardware AGC Rx function is disabled. If 0, the AFE Rx will be configured in powerdown.1xINT8U **      0Gain index. dB/index depends on the AFE used (for 88LX2720 each adds 2 dB and valid range is 0-31). N/A
AGC.GENERAL.TX_GAIN_CH1Gain used in Tx Channel 1. If 0, the AFE Tx will be configured in powerdown.1xINT8U ***     0Gain index. dB/index depends on the AFE used (for 88LX2720 each adds 2 dB and valid range is 0-7). N/A
AGC.GENERAL.TX_GAIN_CH2Gain used in Tx Channel 2. If 0, the AFE Tx will be configured in powerdown.1xINT8U ***     0Gain index. dB/index depends on the AFE used (for 88LX2720 each adds 2 dB and valid range is 0-7). N/A
AVS.GENERAL.VOLTAGEConfigure AVS Voltage.
AVS can be disabled (0 Value). Automatically configured depending on EFUSES value (0xFFFFFFFF) or fixed (747 mV to 1343 mV).		1xINT32U ***     0mV Manual Configuration (747-1343) , Disable Avs (0), EFUSES Configuration (0xFFFFFFFF)
BFT.BLACKLIST.ENABLEDEnables/disables the MAC source address blacklisting feature.
When it is enabled, incoming packets from Ethernet with source MAC address in BFT_BLACKLIST_MACS are dropped.		1xBOOL *** *   NON/A N/A
BFT.BLACKLIST.MACS[8]Table containing the source MAC address blacklisted.
MAC value 00:00:00:00:00:00 means the entry is free, any other value is considered as a valid MAC address and will be blacklisted.		8xMAC_ADDR**** *   00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00N/A N/A
BFT.GENERAL.AGING_TIMEOUTMaximum time a MAC address remains in the BFT.
The aging of a MAC is refreshed with every packet received with the MAC as Source MAC address.
Aging computation is applied only to MAC addresses not learned on G.hn ports.
Aging time has a granularity which depends on the aging timeout value. Granularity is calculated as AGING_TIMEOUT / 15		1xINT16U *** *   300Seconds 30s - 7200s
BFT.GENERAL.LOCAL_MACSIt shows the MACs inserted in the BFT which are associated to the interfaces of this node. It does not show the MACs associated to other nodes.1xMAC_ADDR**       00:00:00:00:00:00N/A N/A
BFT.GENERAL.LOCAL_MACS_LIMITMaximum number of MACs that can be learnt in external interfaces.
Note: ONLY used if BFT.GENERAL.LOCAL_MACS_LIMIT_ENABLED=YES.		1xINT32U *** *   1024N/A 1-1024
BFT.GENERAL.LOCAL_MACS_LIMIT_ENABLEDEnable the limit of MACs that can be learnt in external interfaces.1xBOOL *** *   NON/A N/A
BFT.GENERAL.MACS_INFOIt shows all the MACs inserted in the BFT.
It includes information about the port from which it has been learned and the interface type.
Note: The real size of this parameter depends on the maximum number of MACs supported which depends on the product.		1xINT8U**       0x00N/A N/A
BFT.GENERAL.MACS_INFO_DESC[117]First 6 bytes are from the MAC Address.
Next byte is the port from which the MAC Address has been learned.
Next byte is the Destination ID associated with this port, only when the type is PLC.
Next byte is the MCSTI associated with this port, only when the type is PLC (0 or 1).
Next byte indicates if the MAC is multiport (1) or not (0).
Last byte is the port type, with the meaning:
- 0: Invalid,
- 1: ETHA,
- 2: ETHB,
- 3: WIFI,
- 4: PLC,
- 5: OTHERS.
In case of Multicast MAC Address, there will be one entry in the table for each port.		117xCHAR *       MAC byte5, MAC byte4, MAC byte3, MAC byte2, MAC byte1, MAC byte0, Port, Destination ID, MCSTI, Multiport, Port TypeN/A N/A
BFT.GENERAL.MAC_ADD[9]It adds a MAC/PORT/DID entry to the MAC table.
If the MAC exits in the table, it adds a new entry for this MAC with the PORT and DID indicated.
If the MAC does not exist, it adds a new entry for this MAC with the related PORT and DID.
Note: Only an already existing PORT/DID pair could be used.
Note: Read information should be ignored.
Note: This parameter could be disruptive to the modem behaviour.		9xINT8U **      0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00N/A N/A
BFT.GENERAL.MAC_ADD_DESC[95]First 6 bytes are from the MAC Address.
Next byte is the port from which the MAC Address has been learned.
Next byte is the Destination ID associated with this port, only when the type is PLC.
Last byte is the MCSTI associated with this port, only used when the type is PLC (0 or 1).		95xCHAR *       MAC byte5, MAC byte4, MAC byte3, MAC byte2, MAC byte1, MAC byte0, Port, Destination ID, MCSTIN/A N/A
BFT.GENERAL.MAC_REMOVE[8]It removes a MAC/PORT/DID entry from the MAC table.
If the MAC exits with other PORTS, only the PORT indicated will be removed.
Note: Read information should be ignored.
Note: This parameter could be disruptive to the modem behaviour.		8xINT8U **      0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00N/A N/A
BFT.GENERAL.MAC_REMOVE_DESC[88]First 6 bytes are from the MAC Address.
Next byte is the port from which the MAC Address has been learned.
Last byte is the Destination ID associated with this port, only when the type is PLC.		88xCHAR *       MAC byte5, MAC byte4, MAC byte3, MAC byte2, MAC byte1, MAC byte0, Port, Destination IDN/A N/A
BFT.HGF.MACS_INFOFirst byte indicates number of RAAT entries.
Second byte indicates number of LAAT entries.
Then groups of DID (1 byte) + MAC (6 bytes)
acording to the number of entries indicated in the first bytes.
1xINT8U *       0x00N/A N/A
BRIDGEDRIVER.GENERAL.ITU_MAC_INSERTIf enabled, ITU MAC would be added to BFT so packets with this MAC would be send to FW.
If disabled, packets to ITU MAC comming from ethernet would be considered unknown and replicated depending on the configuration for unknown packets.
Note: Changes in this parameter take effect after a reset.		1xBOOL *** *   YESN/A N/A
CHEST.HGF.CE_PROBE_PARAM[2]Sets the probe parameters to be sent in CHEST.HGF.SEND_CE_PROBE_REQ_IND parameters. 2xINT8U **      0x00,0x00N/A Byte 0 -> Prb FN [3:0] Number of probe frames sent by Tx on each probe request.
Byte 0 -> Prb Type [7:4] Probe type requested.
Byte 1 -> Num sym [3:0] Nmber of symbols in the probes.
Byte 1 -> Default ind [4] Replace existing parameters when set to 1.
Byte 1 -> Reserved [7:5] Reserved by HGF.
CHEST.HGF.CE_REQ_PROBE_VIA_ACKEnables/disables requesting Probes using ACK, for SISO mode. 1xINT8U **      0N/A Byte 0 -> Device id [7:0] Device ID of the Tx node to apply this setting.
CHEST.HGF.CE_RX_MODE[2]Sets the Rx Channel estimation mode for the given DID to use full or short channel estimation process for SISO mode. 2xINT8U **      0,0N/A Byte 0 -> Device id [7:0] Device ID of the Tx node to apply this setting.Byte 1 -> Mode [0] 0-> Rx uses Full process 1-> Rx uses short process.
Byte 1 -> Reserved [7:1] Reserved by HGF.
CHEST.HGF.CE_SEND_REQUEST_INDSends a CE_Request.ind message to the given DID.1xINT8U **      0N/A Byte 0 -> Device id [7:0] Device ID (provided in set operation) to send the CE_Request.Ind to.
CHEST.HGF.CE_SET_FIX_BAT[3]Send a CE_ParamUpdate.req message with a predefined BAT. 3xINT8U **      0,0,0N/A Byte 0 -> Device ID The device ID of the transmitter.
Byte 1 -> GRP Id [2:0] Group Id associated to the BAT.
Byte 1 -> GI Id [5:3] Guard Interval Id associated to the BAT.
Byte 1 -> Reserved [7:6] Reserved
Byte 2 -> FEC rate [2:0] FEC rate to be used in RCM when no runtime BAT is available.
Byte 2 -> Reserved [7:2] Reserved
CHEST.HGF.CE_TX_MODE[2]Sets the Tx Channel estimation mode to allow initiation of channel estimation process or not, for SISO mode. 2xINT8U **      0,0N/A Byte 0 -> Device id [7:0] Device ID of the Tx node to apply this setting.Byte 1 -> Mode [0] 0-> Rx uses Full process 1-> Rx uses short process.
Byte 1 -> Reserved [7:1] Reserved by HGF.
CHEST.HGF.GROUPING_MINSet the minimum group id to be used for any new BAT.1xINT8U **      0N/A Byte 0 -> GRP_ID [2:0] Minimum GRP_ID associated with the BAT. It shall be formatted as shown in Table 7-13 of [ITU-T G.9960].
Byte 0 -> Reserved [7:3] Reserved
CHEST.HGF.MCE_PROBE_PARAM[3]Sets the probe parameters to be sent in CHEST.HGF.SEND_MCE_PROBE_REQ_IND parameters. 3xINT8U **      0x00,0x00,0x00N/A Byte 0 -> Prb FN [3:0] Number of probe frames sent by Tx on each probe request.
Byte 0 -> Prb Type [7:4] Probe type requested.
Byte 1 -> Num sym [3:0] Nmber of symbols in the probes.
Byte 1 -> Default ind [4] Replace existing parameters when set to 1.
Byte 1 -> Reserved [7:5] Reserved by HGF.
Byte 2 -> Prb bmat id [4:0] BMAT ID associated to the probe.
Byte 2 -> Reserved [7:5] Reserved by HGF.
CHEST.HGF.MCE_REQ_PROBE_VIA_ACKEnables/disables requesting Probes using ACK, for MIMO mode. 1xINT8U **      0N/A Byte 0 -> Device id [7:0] Device ID of the Tx node to apply this setting.
CHEST.HGF.MCE_RX_MODE[2]Sets the Rx Channel estimation mode for the given DID to use full or short channel estimation process for MIMO mode. 2xINT8U **      0,0N/A Byte 0 -> Device id [7:0] Device ID of the Tx node to apply this setting.Byte 1 -> Mode [0] 0-> Rx uses Full process 1-> Rx uses short process.
Byte 1 -> Reserved [7:1] Reserved by HGF.
CHEST.HGF.MCE_SEND_REQUEST_INDSends a MCE_Request.ind message to the given DID.1xINT8U **      0N/A Byte 0 -> Device id [7:0] Device ID (provided in set operation) to send the CE_Request.Ind to.
CHEST.HGF.MCE_SET_FIX_BMAT[3]Send a MCE_ParamUpdate.req message with a predefined BMAT. 3xINT8U **      0,0,0N/A Byte 0 -> Device ID The device ID of the transmitter
Byte 1 -> BAT GRP Id [2:0] Group Id associated to the BAT.
Byte 1 -> PR_GRP Id [5:3] Group Id associated to the PRECODING.
Byte 1 -> MIMO mode [7:6] Mimo Mode (0, 1, 2).
Byte 2 -> GI Id [2:0] Guard Interval Id associated to the BAT.
Byte 2 -> FEC rate [5:3] FEC rate to be used in RCM when no runtime BAT is available.
Byte 2 -> Reserved [7:6] Reserved
CHEST.HGF.MCE_TX_MODE[2]Sets the Tx Channel estimation mode to allow initiatio of channel estimation process or not, for MIMO mode.2xINT8U **      0,0N/A Byte 0 -> Device id [7:0] Device ID of the Tx node to apply this setting.Byte 1 -> Mode [0] 0-> Rx uses Full process 1-> Rx uses short process.
Byte 1 -> Reserved [7:1] Reserved by HGF.
CHEST.HGF.RCM_MODE[3]Parameter to read/write the RCM default parameters. 3xINT8U **      0x00,0x00,0x00Format according to HGF LCMP Param Table 1.A30. DID 0-250 FecRate 1-5 BATId 1-2 NumRep 1-6
CHEST.HGF.RX_VALID_BAT_ID_BITMAP[4]Obtains the bitmap of valid BAT/BMAP Ids for the given DID. 4xINT8U **      0x00,0x00,0x00,0x00N/A Byte 0 -> Device id [7:0] Device ID (provided in set operation) to obtain Valid BatID Bitmap.Byte 1-3 -> BatIdBitmap [23:0] Bitmap indicating valid BAT IDs for the indicated device id.
CHEST.HGF.SEND_CE_BATID_MAINTAIN[7]Send CE BatIdMaintain.ind message.7xINT8U **      0,0,0,0,0,0,0N/A Byte 0 -> Device ID 0 The device ID of the transmitter.
Bytes 4:1 -> Valid Bitmap Bitmap for indication which bat id to invalidate or validate.
Byte 5 -> FEC rate [2:0] FEC rate index to use for the RCM profile: 1 => 1/2, 2 => 2/3, 3 => 5/6, 4 => 16/18 and 5 => 20/21.
Byte 5 -> RCM mode [3] RCM mode to use for the RCM profile (BAT id predef): 0-> BAT ID 1, 1->BAT ID 2.
Byte 5 -> Reserved [7:4]
Byte 6 -> Repetition idx [5:0] Repetition index to use for the RCM profile: 1 -> 1 repetition, 2 -> 2 repetitions, 3 -> 3 repetitions, 4-> 4 repetitions, 5 -> 6 repetitions and 6 -> 8 repetitions.
Byte 6 -> Reserved [7:6]
CHEST.HGF.SEND_CE_PROBE_REQ_INDSend a CE_ProbeRequest.ind message with parameters defined in CHEST.HGF.CE_PROBE_PARAM.1xINT8U **      0N/A Byte 0 -> Device ID The device ID associated to the probe.
CHEST.HGF.SEND_MCE_BATID_MAINTAIN[7]Send MCE BatIdMaintain.ind message.7xINT8U **      0,0,0,0,0,0,0N/A Byte 0 -> Device ID 0 The device ID of the transmitter.
Bytes 4:1 -> Valid Bitmap Bitmap for indication which bat id to invalidate or validate.
Byte 5 -> FEC rate [2:0] FEC rate index to use for the RCM profile: 1 => 1/2, 2 => 2/3, 3 => 5/6, 4 => 16/18 and 5 => 20/21.
Byte 5 -> RCM mode [3] RCM mode to use for the RCM profile (BAT id predef): 0-> BAT ID 1, 1->BAT ID 2.
Byte 5 -> Reserved [7:4]
Byte 6 -> Repetition idx [5:0] Repetition index to use for the RCM profile: 1 -> 1 repetition, 2 -> 2 repetitions, 3 -> 3 repetitions, 4-> 4 repetitions, 5 -> 6 repetitions and 6 -> 8 repetitions.
Byte 6 -> Reserved [7:6]
CHEST.HGF.SEND_MCE_PROBE_REQ_INDSend a MCE_ProbeRequest.ind message with parameters defined in CHEST.HGF.MCE_PROBE_PARAM.1xINT8U **      0N/A Byte 0 -> Device ID The device ID associated to the probe.
CHEST.HGF.SET_SINGLE_BAT_ID[2]Prevents one of the current BATIds from being removed.2xINT8U **      0,0N/A Byte 0 -> Device id [7:0] Device ID of the Tx node to apply this setting.Byte 1 -> BatID [4:0] Bat ID to be kept.
Byte 1 -> Reserved [7:5] Reserved by HGF.
CHEST.HGF.TX_FEC_RATE[2]Forces the FEC Rate to be used. 2xINT8U **      0,0N/A Byte 0 -> Device id [7:0] Device ID (not used in MaxLinear modems. FEC rate is applied to all Dids).Byte 1 -> FEC rate index [2:0] 1-> 1/2, 2-> 2/3, 3-> 5/6, 4-> 16/18 5-> 20/21
Byte 1 -> Reserved [7:3] Reserved by HGF
CHEST.INFO.TXChannel status information. See the description for a detailed information about columns.1xINT32U**       0N/A N/A
CHEST.INFO.TX_DESCColumns description of the CHEST.INFO.TX parameter. The final number of columns depends on the number of regions supported.
- SnID: Session Node Id. All the information in the selected row is related to this SnID.
- BPS[region]: BPS for this SnID and region.
- FECR[region]: FEC Rate for this SnID and region.
- RCM[region]: Indicates if RCM is being used in this SnID and region.
- nREP[region]: Number of repetitions used in this SnID and region. Only when using RCM.
Example of columns when using 2 regions: SNId,BPS0,FECR0,RCM0,nREP0,BPS1,FECR1,RCM1,nREP1		1xCHAR *        Units of the different columns:
- BPS: In bits per symbol.
- FECR: The meaning is:
1 -> 1/2,
2 -> 2/3,
3 -> 5/6,
4 -> 16/18 and
5 -> 20/21.
- RCM: 0 means not using RCM. 1 means using RCM.
- nREP: The meaning is:
1 -> 1 repetition,
2 -> 2 repetitions,
3 -> 3 repetitions,
4 -> 4 repetitions,
5 -> 6 repetitions and
6 -> 8 repetitions.		 N/A
CLDRIVER.BCASTSUP.XPUTMaximum throughput allowed without suppressing broadcast traffic.The accuracy of this parameter depends on size of packets (big packets -> more accuracy). Value 0 deactivates this functionality. 1xINT16U *** *   0Mbps 88LX314x: >= 1
88LX515x: >= 2
CLDRIVER.UNKSUP.MCASTMulticast unknown traffic suppressed or not. If this parameter is enabled, the maximum throughput allowed of unknown multicast traffic will be the one configured in parameter UNKSUP.XPUT.1xBOOL *** *   YESN/A N/A
CLDRIVER.UNKSUP.TYPE[16]Unknown traffic of a specific type (from Type Assigner) suppressed or not.Each element of the array corresponds to a type of the Type Assigner.The maximum throughput allowed of unknown traffic of a specific type will be the one configured in parameter UNKSUP.XPUT.16xBOOL *** *   YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YESN/A N/A
CLDRIVER.UNKSUP.XPUTMaximum throughput allowed without suppressing unknown traffic.The accuracy of this parameter depends on size of packets (big packets -> more accuracy). Value 0 deactivates this functionality. 1xINT16U *** *   0Mbps 88LX314x: >= 1
88LX515x: >= 2
CLOCK.GENERAL.DST[8]As defined by standard IEEE Std 1003.1 the format Mm,w,d/h is:
- The d'th day (0 <= d <= 6) of week n of month m of the year (1 <= w <= 5 and 1 <= m <= 12).
- Week 5 means 'the last d day in month m' which may occur in either the fourth or the fifth week).
- Week 1 is the first week in which the d'th day occurs. Day zero is Sunday.
- Hour h could be configured (0 <= h <= 23).
A special case for fixed day is supported in this implementation where if week=0, then the day could be configured with 1 <= d <= 31.		8xINT8U *** *   3,5,6,2,10,5,6,2month number, week, day, hour, month number, week, day, hour N/A
CLOCK.GENERAL.DST_ENABLEDEnable or disable DST.1xBOOL *** *   YESN/A N/A
CLOCK.GENERAL.TIMECurrent time. It has the following format (separated by white spaces):
- week day (Mon, Tue, Wed, Thu, Fri, Sat, Sun),
- month (Jan, Feb, Mar, Apr, May, Jun, Jul, Aug, Sep, Oct, Nov, Dec),
- month day (1-31),
- hours:minutes:seconds and year.
- For example: Wed Feb 13 09:43:29 2013.
Note: In SET operations, week day is ignored because it is calculated from the other parameters, but it is required for format consistency.		1xTIME **      Thu Jan 1 00:00:00 1970N/A N/A
CLOCK.GENERAL.TIME_ZONEConfiguration of time zone (minutes from UTC).1xINT16S *** *   60minutes ((-12*60))-((12*60))
CONFIGLAYER.GENERAL.DELAYED_COMMIT[7]Commit/Abort any pending delayed transaction from the indicated MAC for config layer parameters. Includes MAC and BOOLEAN ->YES to commit, NO to abort.7xINT8U **      0x00,0x00,0x00,0x00,0x00,0x00,0x00N/A N/A
CONFIGLAYER.GENERAL.DHCP_LISTENERSet this to TRUE if you want to be able to send configlayer parameters (in runtime and flash) to the modem using DHCP.
It works like this:

1) Set this parameter to TRUE
2) Configure your DHCP server so that, on its response, inside the 'vendor-sepecific' option
(which is '125' on DHCPv4 or '17' on DHCPv6) it contains a block of data addressed to vendor
'6798' (0x00, 0x00, 0x1A, 0x8E). This blob must be an ASCII text file containing one or more
lines (ending on \n) that look like this: CONFIGLAYER_PARAM_NAME = VALUE
3) When the modem received the DHCP response it will apply, one by one, all the config layer
parameters contained on that file.

WARNING: Be aware that the new config layer parameters are applied both at flash and runtime, while DHCP is being negotiated,
well after many other components have already been initialized, you might find that some
parameters being set this way do not behave as expected. Parameters that require a reset may not work.		1xBOOL *** *   NON/A N/A
CONFIGLAYER.GENERAL.FILTER_UNUSED_ENTRIESEnable/disable filtering unused entries in arrays/tables when getting the parameter value and in the log file. Set YES to enable the filter. NO to disable.1xBOOL *** *   YESN/A N/A
CONFIGLAYER.SYSTEM.STATSConfig layer parameter used to manage other config layer parameters associated to system statistics (system debugging purposes):
Set to 'YES' or 'NO' to reset all config layer parameters associated to system statistics.		1xBOOL **      YESN/A N/A
CONNECTIONMNG.HGF.CONNECTION_HANDLER[3]The node shall perform the requested connection command with the following parameters.Byte 0 [0] -> When one it indicates that the node shall perform the requested connection command.Byte 0 [2:1] -> 0: Establish connection without ACK. 1: Establish connection with ACK. 2: Release the connection. 3: Reset the connection.Byte 0 [7:3] -> Reserved (must be zero0).Byte 1 [7:0] -> Device ID of the node the connection command is related.Byte 2 [7:0] -> Connection identifier of the connection.3xINT8U **      0,0,0N/A N/A
CONSOLE.GENERAL.AUTH_DISABLE[30]Only used for disabling authentication while testing. Do not modify.30xCHAR ***     ****N/A N/A
CONSOLE.GENERAL.AUTH_METHODConsole authorization method. There are 3 methods:
- LEGACY: Old authorization method. Its levels are user, admin and root.
- LOCAL: Local authorization. Its levels are user, tech, admin and developer.
- RADIUS: Remote authorization with radius server.		1xCONSOLE_AUTHMETHOD_TYPE ***     LOCALN/A LEGACY,LOCAL,RADIUS
DHCP.GENERAL.CLIENT_UNIQUE_ID_LENGTHThis parameter indicates the length of the information in DHCP.GENERAL.CLIENT_UNIQUE_ID to be included in the DHCP option 61
Remark: Changes on this parameter require a reset to be applied.		1xINT8U ***     0N/A N/A
DHCP.GENERAL.CLIENT_UNIQUE_ID_VALUE[50]This parameter, when not empty, forces to send the option 61 (Client Unique Identifier) in the Request and Discovery messages including this value.
Remark: Changes on this parameter require a reset to be applied.		50xINT8U ***     0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00N/A N/A
DHCP.GENERAL.DUID_IPV6[32]The DHCP Unique Identifier (DUID) is used by a client to get an IP address from a DHCPv6 server.32xINT8U *       0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0Minimum length of 12 bytes (96 bits) and a maximum length of 20 bytes (160 bits) N/A
DHCP.GENERAL.ENABLED_IPV4Enable/disable DHCP IPV4 client. It will take effect on next reboot.
Both IPV4 and IPV6 ENABLED parameters are independent and can be enabled at the same time.		1xBOOL *** *   NON/A N/A
DHCP.GENERAL.ENABLED_IPV6Enable/disable DHCP IPV6 client. Be sure the IPv6 stack is also enabled if not, this parameter will not take efect and will take effect on next reboot.
Both IPV4 and IPV6 ENABLED parameters are independent and can be enabled at the same time.		1xBOOL *** *   NON/A N/A
DHCP.GENERAL.LEASE_TIME_IPV4Max lease time granted by the DHCP server for the current DHCP IPv4 address.1xINT32U *       0seconds N/A
DHCP.GENERAL.LEASE_TIME_IPV6Max lease time granted by the DHCP server for the current DHCP IPv6 address.1xINT32U *       0seconds N/A
DHCP.GENERAL.MAX_RENEW_TIME_IPV4If set to 0, the client will honor the lease time specified by the server (whose value can be consulted in the DHCP.GENERAL.LEASE_TIME_IPV4 parameter).
Otherwise, the client will renew the IP in a maximum time configured in this parameter.		1xINT32U ***     0seconds N/A
DHCP.GENERAL.MAX_RENEW_TIME_IPV6If set to 0, the client will honor the lease time specified by the server (whose value can be consulted in the DHCP.GENERAL.LEASE_TIME_IPV6 parameter).
Otherwise, the client will renew the IP in a maximum time configured in this parameter.		1xINT32U ***     0seconds N/A
DHCP.GENERAL.REM_LEASE_TIME_IPV4How long the current DHCP IPv4 address is still valid.1xINT32U *       0seconds N/A
DHCP.GENERAL.REM_LEASE_TIME_IPV6How long the current DHCP IPv6 address is still valid.1xINT32U *       0seconds N/A
DHCP.GENERAL.SERVER_IPV4IPv4 address of the current DHCP server.1xIP_ADDR *       0.0.0.0N/A N/A
DHCP.GENERAL.SUGGESTED_DOMAIN_NAME[50]This parameter sets the domain name to be provided to the DHCP server in request messages.50xCHAR ***      N/A N/A
DHCP.GENERAL.SUGGESTED_HOST_NAME[50]This parameter sets the host name to be provided to the DHCP server in request messages.50xCHAR ***      N/A N/A
DIDMNG.GENERAL.ACTIVE[251]This parameter indicates the presence of the associated node.The position X is set to YES if the node is active (POWERSAVING.GENERAL.STATUS is 0, 1, or 2).
The elements of this array correspond to the entries of DIDMNG.GENERAL.DIDS. For example, if the second position of DIDMNG.GENERAL.DIDS is set to 4, the second position of DIDMNG.GENERAL.ACTIVE indicates if node with DID 4 is active.		251xBOOL**       All values set to NON/A N/A
DIDMNG.GENERAL.AGEING[251]Array that lists the ageing of the nodes registered in the current domain.
The elements of this array correspond to the entries of DIDMNG.GENERAL.DIDS with the offset of one position.For example, if the second position of DIDMNG.GENERAL.DIDS is set to 4, the FIRST position of DIDMNG.GENERAL.AGEING is the ageing of the node with DID 4.		251xINT8U**       All values set to 0N/A N/A
DIDMNG.GENERAL.AVG_ATTENUATION[251]This parameter returns the average attenuation estimated with the input node.
WARNING. This parameter is calculated only with traffic, at least 10 Mbps.		251xINT32S**       All values set to 00.1 dB When the value is not calculated yet it shows (2000).
DIDMNG.GENERAL.DIDS[251]Array that lists the DIDs of the nodes registered in the current domain. Nodes not directly visible by the node, but registered in the domain, are present in the array too.251xINT8U**       All values set to 0N/A 1-250
DIDMNG.GENERAL.ISDIRECT[251]Shows if a remote node is directly connected to local node (YES/NO)251xBOOL**       All values set to NOBOOLEAN YES/NO
DIDMNG.GENERAL.ISMPR[251]Shows if a remote node is a RELAY (it has slaves) (YES/NO)251xBOOL**       All values set to NOBOOLEAN YES/NO
DIDMNG.GENERAL.ISSLAVE[251]Shows if a remote node is a direct slave of local node (YES/NO)251xBOOL**       All values set to NOBOOLEAN YES/NO
DIDMNG.GENERAL.MACS[251]Array that lists the MACs of the nodes registered in the current domain.
The elements of this array correspond to the entries of DIDMNG.GENERAL.DIDS with the offset of one position.For example, if the second position of DIDMNG.GENERAL.DIDS is set to 4, the FIRST position of DIDMNG.GENERAL.MACS is the MAC of the node with DID 4.		251xMAC_ADDR**       All values set to 00:00:00:00:00:00N/A N/A
DIDMNG.GENERAL.NUM_ACTIVE_NODES[251]Shows the number of active nodes hanging from remote node251xINT16U**       All values set to 0N/A N/A
DIDMNG.GENERAL.NUM_DIDSIt indicates the total number of DIDs registered in the current domain, including the current node.Nodes not directly visible by the node, but registered in the domain, are included too.1xINT8U **    * 0N/A 0-250
DIDMNG.GENERAL.PREREG[251]Only available in some markets. Array that lists the pr nodes in the current domain.
The elements of this array correspond to the entries of DIDMNG.GENERAL.DIDS with the offset of one position.For example, if the second position of DIDMNG.GENERAL.DIDS is set to 4, the FIRST position of DIDMNG.GENERAL.PREREG_PRIO is the pr flag for the node with DID 4.		251xBOOL**       All values set to NON/A N/A
DIDMNG.GENERAL.PREREG_AGEING[251]Only available in some markets. Array that lists the ageing of the pr nodes registered in the current domain.
The elements of this array correspond to the entries of DIDMNG.GENERAL.DIDS with the offset of one position.For example, if the second position of DIDMNG.GENERAL.DIDS is set to 4, the FIRST position of DIDMNG.GENERAL.PREREG_PRIO is the ageing of the pr node with DID 4.		251xINT8U**       All values set to 0N/A N/A
DIDMNG.GENERAL.PREREG_PRIO[251]Only available in some markets. Array that lists the priority of the pr nodes registered in the current domain.
The elements of this array correspond to the entries of DIDMNG.GENERAL.DIDS with the offset of one position.For example, if the second position of DIDMNG.GENERAL.DIDS is set to 4, the FIRST position of DIDMNG.GENERAL.PREREG_PRIO is the priority of the pr node with DID 4.		251xINT8U**       All values set to 0N/A N/A
DIDMNG.GENERAL.RX_BPS[251]Array that lists the Bits Per Symbol(BPS) used to receive data from each of the nodes registered in the current domain. BPS with own node are set to 0.
The elements of this array correspond to the entries of DIDMNG_GENERAL_DIDS. For example, if the second position of DIDMNG.GENERAL.DIDS is set to 4, the second position of DIDMNG.GENERAL.RX_BPS is the Rx BPS of this node when receiving from the node with DID 4.		251xINT32U**       All values set to 0N/A N/A
DIDMNG.GENERAL.TOPOLOGY_INFO[251][48]Array with Topology Information.
Information of every node in the domain and the parent-slave relashionship.
Information is 38 bytes long
String Format:
[device_mac] [parent_mac] [numHops] [isMpr]
Note: isMpr is 1 if node is RelayNode 0 otherwise
12048xCHAR *       All values set to N/A N/A
DIDMNG.GENERAL.TX_BPS[251]Array that lists the Bits Per Symbol (BPS) used to transmit data to each of the nodes registered in the current domain. BPS with own node are set to 0.
The elements of this array correspond to the entries of DIDMNG.GENERAL.DIDS. For example, if the second position of DIDMNG.GENERAL.DIDS is set to 4, the second position of DIDMNG.GENERAL.TX_BPS is the Tx BPS from this node to the node with DID 4.		251xINT32U**       All values set to 0N/A N/A
DIDMNG.GENERAL.VELOCITY_FACTORThe velocity factor in the medium is the propagation speed of the electrical signal as a percentage of the speed of light in the vacuum. It depends on the dielectric used1xINT8U *** *   66Percentage of the light speed in a vacuum 0 to 100
DIDMNG.GENERAL.VERSIONING_ENABLEGlobal Enable for Versioning Protocol. Disables Transmission and Reception of arriving Versioning info.1xBOOL *** *   YESN/A N/A
DIDMNG.GENERAL.WIRE_LENGTH[251]This parameter returns the wire length estimated with the input node.
WARNING. It depends on the propagation speed of the medium		251xINT32U**       All values set to 01 meter When the value is not calculated yet it shows 0.
DIDMNG.HGF.VERSIONING_CERTIF_VER[3]This parameter describes the HGF silicon compliance certification the node has been certified against.3xINT8U *       0,0,0Format according to HGF LCMP Param Table 1.A32. Byte 0 -> Silicon Certification Version.Byte 1 -> Product Logo Version.Byte 2 -> HGF Profile.
DIDMNG.HGF.VERSIONING_ITU_CAPAB[6]This parameter describes the node capability as defined in the versioning information.6xINT8U *       0,0,0,0,0,0Format according to HGF LCMP Param Table 1.A41. Byte 0 -> bandPlan [2:0] Indicates the maximum bandplan that the node supports (Note 2), represented as described in clause 7.1.2.3.2.2 of [ITU-T G.9960].Byte 0 -> reserved [7:3] Reserved by ITU-T (ignore/set to 0).Byte 1-3 -> startSubCarrier [11:0] Index of the lowest frequency sub-carrier that the node can support on the transmit side coded as an unsigned integer.Byte 1-3 -> stopSubCarrier [23:12] Index of the highest frequency sub-carrier that the node can support on the transmit side coded as an unsigned integer.Byte 4 -> dmDefinedSeed [7:0] If set to 0x01, it indicates the capability of the node to use a DM-generated value as a domain specific seed .Byte 5 -> dmGenInitSeedUldLFSR [7:0] It indicates that the node has the capability of handling a DM-generated initial seed different from the default value for the LFSR generator used when loading the unloaded supported sub-carriers.
DIDMNG.HGF.VERSIONING_MIMOThis parameter describes if the node has been certified with MIMO capabilities.1xINT8U *       0Format according to HGF LCMP Param Table 1.A33. Byte 0 -> MIMO-related.
DNS.GENERAL.IPV4Domain Name Server IP (IPV4).1xIP_ADDR ***     8.8.8.8Decimal format: x.y.z.w
For example: 10.10.1.2		 N/A
DNS.GENERAL.IPV4_ADDITIONAL[11]Additional Domain Name Servers IP (IPV4).11xIP_ADDR ***     0.0.0.0,0.0.0.0,0.0.0.0,0.0.0.0,0.0.0.0,0.0.0.0,0.0.0.0,0.0.0.0,0.0.0.0,0.0.0.0,0.0.0.0Decimal format: x.y.z.w
For example: 10.10.1.3, 10.10.1.4		 N/A
DNS.GENERAL.IPV4_TYPE[32]Method used to assign the IPv4 DNSServer address.32xCHAR **    * StaticN/A Static,DHCPv4
DNS.GENERAL.IPV6Domain Name Server IP (IPV6).1xIPV6_ADDR ***     0000:0000:0000:0000:0000:0000:0000:0000Hexadecimal format: 16-byte numbers separated by colons (:)
For example: 0000:0000:0000:0000:0000:0000:0000:0000		 N/A
DNS.GENERAL.IPV6_TYPE[32]Method used to assign the IPv6 DNSServer address.32xCHAR **    * StaticN/A Static,DHCPv6
ETHIFDRIVER.ETHA.ENABLEDSpecifies if Ethernet interface A is enabled (YES) or disabled (NO).
WARNING: When using SDIO (Wifi products) the ethernet that MUST be used is the ETHA with the INTERNAL PHY.		1xBOOL ***     YESN/A N/A
ETHIFDRIVER.ETHA.IFACE_TYPEType of bus used in Ethernet A interface. If the internal PHY device is connected to Ethernet A interface, the type of bus used is SSMII. If not, the options are MII , RGMII or SGMII.1xETHIFDRIVER_IFACETYPE ***     RGMIIN/A MII, SSMII , GMII, RGMII
ETHIFDRIVER.ETHA.INTERNAL_PHYSet to YES if the internal PHY device is connected to the Ethernet A interface.1xBOOL ***     NON/A N/A
ETHIFDRIVER.ETHA.MIIM_MASTERSpecifies if Ethernet interface A is master of the MDC/MDIO bus (YES) or slave (NO).1xBOOL ***     YESN/A N/A
ETHIFDRIVER.ETHA.MODEMode of the Ethernet A interface. In PHY mode, only autonegotiation disabled and fixed speed with full duplex is supported.1xETHIFDRIVER_MODE ***     MACN/A MAC or PHY
ETHIFDRIVER.ETHA.RX_CLK_DLYApply (YES) or not (NO) CLK delay in Rx line of RGMII interface. If set to NO, then it must be configured in the ethernet PHY driver.1xBOOL ***     NON/A N/A
ETHIFDRIVER.ETHA.TX_CLK_DLYApply (YES) or not (NO) CLK delay in Tx line of RGMII interface. If set to NO, then it must be configured in the ethernet PHY driver.1xBOOL ***     NON/A N/A
ETHIFDRIVER.ETHB.ENABLEDSpecifies if Ethernet interface B is enabled (YES) or disabled (NO).
WARNING: When using SDIO (Wifi products) the ethernet that MUST be used is the ETHA with the INTERNAL PHY.		1xBOOL ***     YESN/A N/A
ETHIFDRIVER.ETHB.IFACE_TYPEType of bus used in Ethernet B interface. Currently, only SSMII type is allowed. Other options are reserved.1xETHIFDRIVER_IFACETYPE ***     SSMIIN/A MII, SSMII , GMII, RGMII
ETHIFDRIVER.ETHB.INTERNAL_PHYSet to YES if the internal PHY device is connected to the Ethernet B interface. If the internal PHY device is connected to Ethernet A interface, this parameter has no effect.1xBOOL ***     YESN/A N/A
ETHIFDRIVER.ETHB.MIIM_MASTERSpecifies if Ethernet interface B is master of the MDC/MDIO bus (YES) or slave (NO).1xBOOL ***     YESN/A N/A
ETHIFDRIVER.ETHB.MODEMode of the Ethernet B interface.1xETHIFDRIVER_MODE ***     MACN/A MAC or PHY
ETHIFDRIVER.FLOWCTRL.ETHA_MODESet which Eth Flow Control should be used, EFC or PFC.1xINT8U ***     0N/A 0 (EFC), 1 (PFC)
ETHIFDRIVER.FLOWCTRL.ETHB_MODESet which Eth Flow Control should be used, EFC or PFC.1xINT8U ***     0N/A 0 (EFC), 1 (PFC)
ETHIFDRIVER.FLOWCTRL.PAUSE_MODE0When set to YES, a PAUSE Frame with Pause time set to 0 is sent inmediately when there is no congestion.1xBOOL ***     NON/A N/A
ETHIFDRIVER.FLOWCTRL.PAUSE_START_THR[4]How much free resources are allowed pervious to issue a PAUSE frame.4xINT8U ***     0,0,0,0% 0-100%
ETHIFDRIVER.FLOWCTRL.PAUSE_STOP_THR[4]How much free resources are allowed pervious to stop issueing more PAUSE frames.4xINT8U ***     0,0,0,0% 0-100%
ETHIFDRIVER.FLOWCTRL.PAUSE_STRICT_PRIO_MODESet to YES in order to use strict priority based mode in order to configure priority enable vector.1xBOOL ***     NON/A N/A
ETHIFDRIVER.FLOWCTRL.PAUSE_TIMEHow much time should be informed at PAUSE Frame, in nsec. This value will be clamped to valid one internally, as this depends on Eth Speed.1xINT32U ***     0nsec, with 10 nsec resolution 0 means use maximun value, [200..3355400000] nsec
ETHIFDRIVER.STATS.ERRORS[18]Ethernet Rx and Tx detailed errors statistics. See the description in the ETHIFDRIVER.STATS.ERRORS_DESC parameter for a detailed information about columns.18xINT64U *       N/AN/A N/A
ETHIFDRIVER.STATS.ERRORS_DESC[351]Gets the column description for the ETHIFDRIVER.STATS.INFO parameter.
- TIMER: Time stamp. Free running counter that works with the system clock (100 MHz). 32 bits.
- MSECS: Time stamp. Milliseconds since last boot.
- ETHA Tx packets retried due to collision errors.
- ETHA Tx packets dropped due to maximum collision errors reached.
- ETHA Rx packets dropped due to reception errors.
- ETHA Rx packets dropped due to collision errors.
- ETHA Rx packets dropped due to length errors.
- ETHA Rx packets dropped due to storage errors (no available cell).
- ETHA Rx packets dropped due to errors in the data fifo management.
- ETHA Rx packets dropped due to CRC errors.
- ETHB Tx packets retried due to collision errors.
- ETHB Tx packets dropped due to maximum collision errors reached.
- ETHB Rx packets dropped due to reception errors.
- ETHB Rx packets dropped due to collision errors.
- ETHB Rx packets dropped due to length errors.
- ETHB Rx packets dropped due to storage errors (no available cell).
- ETHB Rx packets dropped due to errors in the data fifo management.
- ETHB Rx packets dropped due to CRC errors.
351xCHAR *       N/AN/A N/A
ETHIFDRIVER.STATS.INFO[16]Ethernet Rx and Tx bytes and packets statistics. See the description in the ETHIFDRIVER.STATS.INFO_DESC parameter for a detailed information about columns.16xINT64U *       N/AN/A N/A
ETHIFDRIVER.STATS.INFO_DESC[247]Gets the column description for the ETHIFDRIVER.STATS.INFO parameter.
- TIMER: Time stamp. Free running counter that works with the system clock (100 MHz). 32 bits.
- MSECS: Time stamp. Milliseconds since last boot.
- ETHA Tx bytes: Transmitted bytes through Ethernet interface A (64 bits value).
- ETHA Rx bytes: Received bytes through Ethernet interface A (64 bits value).
- ETHB Tx bytes: Transmitted bytes through Ethernet interface B (64 bits value).
- ETHB Rx bytes: Received bytes through Ethernet interface B (64 bits value).
- ETHA Tx packets: Transmitted packets through Ethernet interface A (64 bits value).
- ETHA Rx packets: Received packets through Ethernet interface A (64 bits value).
- ETHB Tx packets: Transmitted packets through Ethernet interface B (64 bits value).
- ETHB Rx packets: Received packets through Ethernet interface B (64 bits value).
- ETHA Tx Queue Full: Discarded packets due to Ethernet A buffer full (16 bits value).
- ETHB Tx Queue Full: Discarded packets due to Ethernet B buffer full (16 bits value).
- ETHA Tx total packets with any type of error.
- ETHA Rx total packets with any type of error.
- ETHB Tx total packets with any type of error.
- ETHB Rx total packets with any type of error.
247xCHAR *       N/AN/A N/A
ETHIFDRIVER.STATS.RESETWhen set to YES, it resets all the statistic counters in the ETHIFDRIVER.STATS.INFO parameter.1xBOOL **      YESN/A N/A
ETHPHYCONF.AUTOSWITCH.ENABLESet to YES to enable Auto Switch Speed functionality on SGMII/ETHB. Modem will switch between 2.5Gbps and 1Gbps until a link is established.
1xBOOL ***     NON/A YES,NO
ETHPHYCONF.AUTOSWITCH.TIMEOUTTimeout in seconds to switch between 2.5Gbps and 1Gbps to try to established a link.
1xINT32U ***     10seconds N/A
ETHPHYCONF.ETHA.ASYM_PAUSEAsymetric Pause support of Ethernet A interface. To modify it, auto-negotiation in run-time must be disabled. If auto-negotiation is enabled, this parameter reports the auto-negotiation result and cannot be written.1xBOOL ***     NON/A N/A
ETHPHYCONF.ETHA.AUTONEGEnable or disable auto-negotiation of Ethernet A interface.
Warning: When changing the AUTONEG value stored in flash, both SPEED and DUPLEX values stored in flash MUST be configured too.		1xBOOL ***     NON/A N/A
ETHPHYCONF.ETHA.CAP_1000_FDEnable or disable capability 1000 FD of Ethernet A interface.1xBOOL ***     NON/A N/A
ETHPHYCONF.ETHA.CAP_100_FDEnable or disable capability 100 FD of Ethernet A interface.1xBOOL ***     NON/A N/A
ETHPHYCONF.ETHA.CAP_100_HDEnable or disable capability 100 HD of Ethernet A interface.
Warning: In case of using external PHY, HALF DUPLEX is not supported.		1xBOOL ***     NON/A N/A
ETHPHYCONF.ETHA.CAP_10_FDEnable or disable capability 10 FD of Ethernet A interface.1xBOOL ***     NON/A N/A
ETHPHYCONF.ETHA.CAP_10_HDEnable or disable capability 10 HD of Ethernet A interface.
Warning: In case of using external PHY, HALF DUPLEX is not supported.		1xBOOL ***     NON/A N/A
ETHPHYCONF.ETHA.CAP_ASYM_PAUSEEnable or disable capability Asymetric Pause of Ethernet A interface.1xBOOL ***     NON/A N/A
ETHPHYCONF.ETHA.DUPLEXDuplex mode of Ethernet A interface. To modify it, auto-negotiation in run-time must be disabled. If auto-negotiation is enabled, this parameter reports the auto-negotiation result and cannot be written.1xETHIFDRIVER_DUPLEX ***     FULL_DUPLEXN/A FULL_DUPLEX,HALF_DUPLEX
ETHPHYCONF.ETHA.LAST_LINK_CHANGETime in seconds since last link change in the Ethernet A interface.1xINT32U *       0seconds N/A
ETHPHYCONF.ETHA.LINKStatus of link of Ethernet A interface.1xBOOL **    * NON/A N/A
ETHPHYCONF.ETHA.LINK_CHANGESNumber of times that the link has changed between up/down Ethernet A interface.
Write any value to this parameter to reset this and ETHPHYCONF.ETHA.LAST_LINK_CHANGES.		1xINT32U **      0N/A N/A
ETHPHYCONF.ETHA.MIIM_IFACE[2]Interface A or B where PHY is connected for MIIM configuration.2xCHAR ***     AN/A A,B
ETHPHYCONF.ETHA.MODE[11]N/A11xCHAR ***     UNUSEDN/A N/A
ETHPHYCONF.ETHA.PHY_ADDRPHY Address to be used to access the PHY connected to the Ethernet A by the MIIM management interface.1xINT8U ***     0xFFN/A 0-31,255
ETHPHYCONF.ETHA.PHY_IDPHY ID of the PHY. This is only used when the PHY ADDR automatic detection is disabled.
Only valid after reset.		1xINT32U ***     0xFFFFFFFFN/A N/A
ETHPHYCONF.ETHA.REMOTE_CAP_1000_FDCapability 1000 FD reported by the remote partner connected to the Ethernet A interface. Only valid if autonegotiation is enabled.
1xBOOL *       NON/A N/A
ETHPHYCONF.ETHA.REMOTE_CAP_100_FDCapability 100 FD reported by the remote partner connected to the Ethernet A interface. Only valid if autonegotiation is enabled.
1xBOOL *       NON/A N/A
ETHPHYCONF.ETHA.REMOTE_CAP_100_HDCapability 100 HD reported by the remote partner connected to the Ethernet A interface. Only valid if autonegotiation is enabled.
1xBOOL *       NON/A N/A
ETHPHYCONF.ETHA.REMOTE_CAP_10_FDCapability 10 FD reported by the remote partner connected to the Ethernet A interface. Only valid if autonegotiation is enabled.
1xBOOL *       NON/A N/A
ETHPHYCONF.ETHA.REMOTE_CAP_10_HDCapability 10 HD reported by the remote partner connected to the Ethernet A interface. Only valid if autonegotiation is enabled.
1xBOOL *       NON/A N/A
ETHPHYCONF.ETHA.REMOTE_CAP_ASYM_PAUSECapability Asymmeytric Pause reported by the remote partner connected to the Ethernet A interface. Only valid if autonegotiation is enabled.
1xBOOL *       NON/A N/A
ETHPHYCONF.ETHA.REMOTE_CAP_PAUSECapability Pause reported by the remote partner connected to the Ethernet A interface. Only valid if autonegotiation is enabled.
1xBOOL *       NON/A N/A
ETHPHYCONF.ETHA.SPEEDSpeed of Ethernet A interface. To modify it, auto-negotiation in run-time must be disabled. If auto-negotiation is enabled, this parameter reports the auto-negotiation result and cannot be written.1xETHIFDRIVER_SPEED ***     100N/A 10,100,1000
ETHPHYCONF.ETHB.ASYM_PAUSEAsymetric Pause support of Ethernet B interface. To modify it, auto-negotiation in run-time must be disabled. If auto-negotiation is enabled, this parameter reports the auto-negotiation result and cannot be written.1xBOOL ***     NON/A N/A
ETHPHYCONF.ETHB.AUTONEGEnable or disable auto-negotiation of Ethernet B interface.
Warning: When changing the AUTONEG value stored in flash, both SPEED and DUPLEX values stored in flash MUST be configured too.		1xBOOL ***     NON/A N/A
ETHPHYCONF.ETHB.CAP_1000_FDEnable or disable capability 1000 FD of Ethernet B interface.1xBOOL ***     NON/A N/A
ETHPHYCONF.ETHB.CAP_100_FDEnable or disable capability 100 FD of Ethernet B interface.1xBOOL ***     NON/A N/A
ETHPHYCONF.ETHB.CAP_100_HDEnable or disable capability 100 HD of Ethernet B interface.
Warning: In case of using external PHY, HALF DUPLEX is not supported.		1xBOOL ***     NON/A N/A
ETHPHYCONF.ETHB.CAP_10_FDEnable or disable capability 10 FD of Ethernet B interface.1xBOOL ***     NON/A N/A
ETHPHYCONF.ETHB.CAP_10_HDEnable or disable capability 10 HD of Ethernet B interface.
Warning: In case of using external PHY, HALF DUPLEX is not supported.		1xBOOL ***     NON/A N/A
ETHPHYCONF.ETHB.CAP_ASYM_PAUSEEnable or disable capability Asymetric Pause of Ethernet B interface.1xBOOL ***     NON/A N/A
ETHPHYCONF.ETHB.DUPLEXDuplex mode of Ethernet B interface. To modify it, auto-negotiation in run-time must be disabled. If auto-negotiation is enabled, this parameter reports the auto-negotiation result and cannot be written.1xETHIFDRIVER_DUPLEX ***     FULL_DUPLEXN/A FULL_DUPLEX,HALF_DUPLEX
ETHPHYCONF.ETHB.LAST_LINK_CHANGETime in seconds since last link change in the Ethernet B interface.1xINT32U *       0seconds N/A
ETHPHYCONF.ETHB.LINKStatus of link of Ethernet B interface.1xBOOL **    * NON/A N/A
ETHPHYCONF.ETHB.LINK_CHANGESNumber of times that the link has changed between up/down Ethernet B interface.
Write any value to this parameter to reset this and ETHPHYCONF.ETHB.LAST_LINK_CHANGES.		1xINT32U **      0N/A N/A
ETHPHYCONF.ETHB.MIIM_IFACE[2]Interface A or B where PHY is connected for MIIM configuration.2xCHAR ***     BN/A A,B
ETHPHYCONF.ETHB.MODE[11]N/A11xCHAR ***     UNUSEDN/A N/A
ETHPHYCONF.ETHB.PHY_ADDRPHY Address to be used to access the PHY connected to the Ethernet B by the MIIM management interface.1xINT8U ***     0xFFN/A 0-31,255
ETHPHYCONF.ETHB.PHY_IDPHY ID of the PHY. This is only used when the PHY ADDR automatic detection is disabled.
Only valid after reset.		1xINT32U ***     0xFFFFFFFFN/A N/A
ETHPHYCONF.ETHB.REMOTE_CAP_1000_FDCapability 1000 FD reported by the remote partner connected to the Ethernet B interface. Only valid if autonegotiation is enabled.
1xBOOL *       NON/A N/A
ETHPHYCONF.ETHB.REMOTE_CAP_100_FDCapability 100 FD reported by the remote partner connected to the Ethernet B interface. Only valid if autonegotiation is enabled.
1xBOOL *       NON/A N/A
ETHPHYCONF.ETHB.REMOTE_CAP_100_HDCapability 100 HD reported by the remote partner connected to the Ethernet B interface. Only valid if autonegotiation is enabled.
1xBOOL *       NON/A N/A
ETHPHYCONF.ETHB.REMOTE_CAP_10_FDCapability 10 FD reported by the remote partner connected to the Ethernet B interface. Only valid if autonegotiation is enabled.
1xBOOL *       NON/A N/A
ETHPHYCONF.ETHB.REMOTE_CAP_10_HDCapability 10 HD reported by the remote partner connected to the Ethernet B interface. Only valid if autonegotiation is enabled.
1xBOOL *       NON/A N/A
ETHPHYCONF.ETHB.REMOTE_CAP_ASYM_PAUSECapability Asymmeytric Pause reported by the remote partner connected to the Ethernet A interface. Only valid if autonegotiation is enabled.
1xBOOL *       NON/A N/A
ETHPHYCONF.ETHB.REMOTE_CAP_PAUSECapability Pause reported by the remote partner connected to the Ethernet A interface. Only valid if autonegotiation is enabled.
1xBOOL *       NON/A N/A
ETHPHYCONF.ETHB.SPEEDSpeed of Ethernet B interface. To modify it, auto-negotiation in run-time must be disabled. If auto-negotiation is enabled, this parameter reports the auto-negotiation result and cannot be written.1xETHIFDRIVER_SPEED ***     100N/A 10,100,1000
ETHPHYCONF.HGF.ETH_IF_TYPEAssociated to the LCMP HGF parameter use to obtain the maximum supported type (100/1000) of the main eth interface.1xINT8U *       0x00N/A 0 (100 Mbps) - 1 (1 Gbps)
FACTORYRESET.GENERAL.BUTTON_NUMBERIndicates which button will be assigned for the factory reset functionality.1xINT8U *** *   255Button number (GPIO is configured in the UI component). Set to 255 to disable. 0-6,255
FACTORYRESET.GENERAL.BUTTON_TIMEIndicates how many seconds the assigned button needs to be pressed to perform a factory reset.1xINT8U *** *   10seconds 0-255
FACTORYRESET.GENERAL.FORCE_RESETForces a factory reset and uses the value passed to set the reset cause.1xINT8U **      0N/A N/A
FACTORYRESET.GENERAL.PASSWORD[21]Password string to allow performing a factory reset. It is maintained for backward compatibility but final password hash is stored in FACTORYRESET.GENERAL.PASSWORD_HASH.21xCHAR **    * ****N/A N/A
FACTORYRESET.GENERAL.PASSWORD_HASH[32]Password hash to allow performing a factory reset.32xINT8U *** * * ****N/A N/A
FACTORYRESET.PROFILE.IDSelect a factory settings profile:
n=0 -> None
n=1-255 -> profile 'n'
When writing, FACTORYRESET.PROFILE.SELECT_MBR must be configured to NO. Otherwise, it will return error
When reading, the response depends on the profile id source (FACTORYRESET.PROFILE.SELECT_MBR)
Note: Remember to unlock this operation (FACTORYRESET.PROFILE.UNLOCK=YES)
Warning: When the value of Profile Id in flash has been modified and FACTORYRESET.PROFILE.SELECT_MBR=YES, it will not be updated in this parameter after the next reset.
Warning: In case the file for profile configured in this parameter does not exist in the device, the factory reset process will be performed anyway applying only the default factory values.
This situation could be detected by checking after the factory reset the value stored in FACTORYRESET.PROFILE.LAST_CHECK.		1xINT8U *** *   0N/A N/A
FACTORYRESET.PROFILE.LAST_CHECKIndicates the result of the last factory reset related to factory profile ID:
0: There has not been any factory reset since last upgrade.
1: Factory profile ID was configured and found.
2: Factory profile ID not configured.
3: Factory profile ID configured but not found.
4 - 255: Reserved.		1xINT8U *** * * 0N/A N/A
FACTORYRESET.PROFILE.SELECT_MBRConfigure the profile ID source: TRUE: Readonly MBR area, which is configured during manufacturing.
FALSE: Read/write user area.
Note: Remember to unlock this operation (FACTORYRESET.PROFILE.UNLOCK=YES)		1xBOOL *** *   NON/A N/A
FACTORYRESET.PROFILE.UNLOCKLock/unlock factory profile selection (FACTORYRESET.PROFILE.ID and FACTORYRESET.PROFILE.SELECT_MBR)
This operation is always locked when the modem is switched on.		1xBOOL **      NON/A N/A
FILESYSTEM.GENERAL.CHECK_CRC_FWWriting any value to this parameter initiates the calculation the CRC of the current FW image and
compares it with the stored CRC. If they are different it means that the FW image is corrupted and
shall be rewritten before the next reset of the node. The flash may have worn out.
The result of the CRC Check can be read in the parameter CRC_FW_ERROR		1xBOOL **      NON/A N/A
FILESYSTEM.GENERAL.CRC_FW_ERRORResult of the FW image CRC Check. Possible values:
0x0 - CRC OK. FW image has been corrupted
0x1 - CRC ERROR. FW image has been corrupted
0xFF - CRC Check still running. Parameter has to be read again later.
It takes around 6 seconds to check the CRC		1xINT8U *       0N/A N/A
FILESYSTEM.GENERAL.REMOVE_FILE[128]Removes any file or directory (along all of its contents) indicated by the value of this parameter.
Filename/Dirname must be expressed as an absolute path. Example: '/logfile/logfile.cfg' or '/web'.
When read, returns the last removed file/directory.		128xCHAR **       N/A N/A
FLOWMANAGER.HGF.CONNECTION_ID_LIST[2]List of the connections identifiers that are currently operated.
Bytes 0-1: Number of active connections.
Byte 2 : Source device ID of connection #1.
Byte 3 : Destination device ID of connection #1.
Byte 4 : The connection identifier of connection #1. Bytes 5-6: The current LSSN of the connection #1. Byte 7 : Source device ID of connection #2.
Byte 8 : ...		2xINT8U *       0,0N/A N/A
FLOWMONITOR.GENERAL.DID_ESTIMATEForces a re-estimation of the bit-rate with the desired Device ID.1xINT8U **      0Device Id present in the Domain 1-250
FLOWMONITOR.HGF.CHANNEL_EST_ENABLEDEnables or disables channel estimator automatic requests.1xBOOL **      NON/A N/A
FLOWMONITOR.HGF.SEND_CE_INITIATION_REQSend CE Initiation.req message.1xINT8U **      0N/A Byte 0 -> Device ID The device ID of the transmitter
FLOWMONITOR.HGF.SEND_MCE_INITIATION_REQSend MCE Initiation.req message.1xINT8U **      0N/A Byte 0 -> Device ID The device ID of the transmitter
FLOWMONITOR.INFO.TX_XPUT_INDICATOREstimated application-layer Tx throughput. It is a global estimation, not for an specific link.1xINT16U *       0Mbps (Megabits per second) N/A
FLOWMONITOR.INFO.XPUT_DIDSelected Device Id for Xput indicator reference. Only valid for FLOWMONITOR.INFO.XPUT_MODE 2, in any other case returns 01xINT8U *       0Device Id present in the Domain 1-250
FLOWMONITOR.INFO.XPUT_INDICATOREstimated application-layer Rx throughput. It is a global estimation, not for an specific link.1xINT16U *       0Mbps (Megabits per second) N/A
FLOWMONITOR.INFO.XPUT_MODEMode used to select the preferred link used to base throughput estimation:
1: Uses as reference the node which has more traffic
2: Uses as reference its parent node in case of End-Point and the End-Point with highest traffic in case of AM (Only valid in NExt mode)		1xINT8U *** *   1N/A 1-2
FLOWMONITOR.STATS.LINK_STATUS[7]Gets the column description for the FLOWMONITOR.STATS.LINK_STATUS parameter.
Flow monitor accumulated statistics per link:
- TIMER: Time stamp. Free running counter that works with the system clock (100 MHz). 32 bits.
- MSECS: Time stamp. Milliseconds since last boot.
- SID: Source ID. All the following counters are information related to this device as source of the traffic.
- FRAMES: Number of received frames.
- LPDUS: Total number of received LPDUS, including valid and errors.
- ERROR%: Percentage of LPDUs with errors.
- ABORT%: Percentage of aborted LPDUs.
7xINT32U**       N/AN/A N/A
FLOWMONITOR.STATS.LINK_STATUS_DESC[43]Flow monitor accumulated statistics per link.
See the description in the FLOWMONITOR.STATS.LINK_STATUS_DESC parameter for a detailed information about columns.		43xCHAR *       N/AN/A N/A
FLOWMONITOR.STATS.NETSTATS_CONFIG[24]Arrays of configuration values and thresholds to be used in the network statistics for HPAV coexistence, Mac Scheduling Power Saving and others:
INC_FILT_GAIN_POS -> Value added to the increment filter when increment of xput is detected.
INC_FILT_GAIN_NEG -> Value subtracted to the increment filter when increment of xput is not detected.
DEC_FILT_GAIN_POS -> Value added to the decrement filter when decrement of xput is detected.
DEC_FILT_GAIN_NEG -> Value subtracted to the decrement filter when decrement of xput is not detected.
INC_THR -> Threshold value to the increment filter to decide a real enlarge of available time slot
DEC_THR -> Threshold value to the decrement filter to decide a real reduction of available time slot.
BRURQ_INC_UDP_THR -> Percentage of frames with brurq != 0 (meaning the frame has not empty the buffer of the transmitter), to declare conditions of increment in UDP traffic conditions.
BRURQ_INC_TCP_THR -> Percentage of frames with brurq != 0 (meaning the frame has not empty the buffer of the transmitter), to declare conditions of increment in TCP traffic conditions.
BRURQ_DEC_THR -> Percentage of frames with brurq != 0 (meaning the frame has not empty the buffer of the transmitter), to declare conditions of decrement in UDP traffic conditions (together with DUR_RATIO_THR).
DUR_RATIO_THR -> This is the percentage of the average of the frame duration in the first part of the MAP cycle, compared to the second part of the MAP cycle (if below 100% means frames in the second part of the map cycle are smaller so reduction is possible).
USAGE_THR -> The percentage of frames duration compared to the total duration available. Last 8 MAP cycles are evaluated, if one single MAP cycle doesn't reach this threshold need of slot increment is considered false.
SCHED_INC_GAP -> Quantity of increment to apply in the time slot when conditions are met.
SCHED_DEC_GAP ->Quantity of decrement to apply in the time slot when conditions are met.
TCP_INC -> Quantity of increment to apply in the time slot when conditions are met in TCP conditions.
UDP_MIN_NUM_TX -> Minimum number of frames detected in a given flow in a MAP cycle to consider them for the decision (to avoid spurious traffic alter the decision).		24xINT32S ***     N/AN/A N/A
FLOWMONITOR.STATS.NETSTATS_CONFIG_DESCList of the parameters to be configured in the FLOWMONITOR.STATS.NETSTATS_CONFIG.1xCHAR *        N/A N/A
FLOWMONITOR.STATS.RESETWhen set to YES it resets all the statistic counters in FLOWMONITOR.STATS subgroup.1xBOOL **      YESN/A N/A
FLOWMONITOR.TRAFFSHAP.CURRENT_LIMITCurrent throughput limit applied (only valid when traffic shaping feature is enabled).1xINT32U *       0Mbps N/A
FLOWMONITOR.TRAFFSHAP.ENABLEDEnables or disables the use of traffic shaping feature.1xBOOL ***     NON/A N/A
FLOWMONITOR.TRAFFSHAP.FILTER[2]Estimated ingress throughput is calculated as: (prev_xput * (100% - filter)) + (new_xput * filter).
There are 2 values, first one is used when traffic rate is increasing, and second one when traffic rate is decreasing.		2xINT8U ***     30,10percentage 0 - 100
FLOWMONITOR.TRAFFSHAP.FORCED_RATEForce Traffic Shaping Rate.
When this feature is enabled, No ingress rate detection algorithm is used , and we force configured rate directly.
0 is used to disable this feature and try to autodetect automatically ingress rate
TRAFFSHAP Must be Enabled to be able to force rate
1xINT32U ***     0Mbps 0: Disabled; 1 - 2000: Rate in Mbps
FLOWMONITOR.TRAFFSHAP.GUARDThroughput limit is calculated as: estimated_xput + (estimated_xput * guard).1xINT32S ***     2percentage -100 - 10000
FLOWMONITOR.TRAFFSHAP.INTERNAL100MEnables/disables an accurate 100 Mbps shaping only for MACs forwarded to configured interface.
When this feature is enabled, FLOWCONTROL.ETH100.ENABLED shall be set to NO, in order to avoid conflicts.
MACs connected to an external switch port at 100 Mbps should be forwarded to given interface.
To forward MACs to INTERNAL100M interface, use parameter BFT.GENERAL.MAC_ADD, taking into account ETHA = port 2 and ETHB = port 3.
For instance, in a product with an external switch connected to ETHA, following configuration shall be done:
ETHIFDRIVER.ETHB.INTERNAL_PHY = YES
ETHIFDRIVER.ETHB.ENABLED = YES
FLOWCONTROL.ETH100.ENABLED = NO
FLOWMONITOR.TRAFFSHAP.INTERNAL100M = 2
To perform accurate shaping for MAC 00:11:22:33:44:55, use:
BFT.GENERAL.MAC_ADD = 0x00,0x11,0x22,0x33,0x44,0x55,0x3,0,0		1xINT32U ***     0N/A 0: Disabled; 1: ETHA; 2: ETHB
FLOWMONITOR.TRAFFSHAP.LIMIT_RX_BUFF_ETH100_ENLimits the maximum amount of data per TX when the Ethernet is connected @100Mbps.
When this feature is enabled, if the Ethernet is connected at lower speed than 1Gbps, the maximum number of FEC blocks
per transmission is limited to FLOWMONITOR_TRAFFSHAP_MAX_RX_BUFFER_ETH100 value		1xBOOL *** *   NON/A N/A
FLOWMONITOR.TRAFFSHAP.WINSIZEConfigures the window size used to measure ingress throughput.1xINT32U ***     400000010 ns 200000 (2 ms) - 10000000 (100 ms)
FLUPGRADE.GENERAL.DOWNLOADED_BYTESNumber of bytes uploaded to the modem in the current transfer. Updated in real time.1xINT32U *       0N/A N/A
FLUPGRADE.GENERAL.FILENAME[201]Name of the file to be uploaded.201xCHAR **       N/A N/A
FLUPGRADE.GENERAL.FILE_SIZESize of the file uploaded to the modem.1xINT32U *       0N/A N/A
FLUPGRADE.GENERAL.FTP_LOGIN[40]FTP user login (applies only to FTP protocol).40xCHAR **       N/A N/A
FLUPGRADE.GENERAL.FTP_PASSWORD[15]FTP user password (applies only to FTP protocol).15xCHAR **      ****N/A N/A
FLUPGRADE.GENERAL.HOST[50]Server hostname or IP (IPV4 or IPV6) address (applies only to TFTP and FTP protocols).
The default port for FTP server is 21. But a different port can be indicated using this notation: hostname:port or ip:port. For example: 10.10.1.1:210.
Note: The port cannot be indicated if the protocol is TFTP.		50xCHAR **       N/A N/A
FLUPGRADE.GENERAL.LAST_UPGRADE_INFO[8192]Detailed log about the last upgrade8192xCHAR *       No upgrade process has run yetN/A N/A
FLUPGRADE.GENERAL.MODEMFILENAME[201]Filename assigned to the file uploaded to modem via File section.
Note: The filename must be a full path filename, for example: 'logfile/logfile.cfg'.		201xCHAR **       N/A N/A
FLUPGRADE.GENERAL.OFFSETInternal flash address where section is going to be upgraded.1xINT32U **    * 0N/A N/A
FLUPGRADE.GENERAL.ONLY_EXTERNAL_MANAGEDIndicates whether or not the ACS will manage upgrades for the modem. If YES, the modem should not use other means other than the ACS to seek out available upgrades. 1xBOOL *** *   NON/A N/A
FLUPGRADE.GENERAL.SECTION[201]Type of content of the file to be uploaded:
- Firmware, Loader, Config and Factory are specific system sections.
- File section is used to upload any file.- Flash section is used to upgrade the entire system. All sections are overwritten.
- Params_update section is used to update the value of a group of Configlayer params.
- OSUP section is used to perform the One Step Upgrade.		201xCHAR **       N/A Firmware,Loader,Config,Factory,File,Flash,Params_update,OSUP
FLUPGRADE.GENERAL.SECURESpecifies if the new file is uploaded to the free flash space or overwrites the previous version.
Safe upgrade (YES) requires enough free flash space to store the entire file before replacing the previous file. This option makes firmware upgrade safe against interruptions and power cuts. An error is reported in case there is not enough flash space.
Unsafe upgrade (NO) overwrites the previous file, which may result in modem malfunction in case the upgrade is interrupted.		1xBOOL **      YESN/A N/A
FLUPGRADE.GENERAL.SOURCEProtocol used to transfer the file:
- TFTP: Connects to a standard TFTP server (server address indicated by FLUPGRADE.GENERAL.HOST, port 69).
- FTP: Connects to a standard FTP server (server address and port indicated by FLUPGRADE.GENERAL.HOST).
- L2: MaxLinear proprietary Ethernet-level protocol.		1xFLUP_SRC **       N/A TFTP,FTP,L2
FLUPGRADE.GENERAL.STARTWhen written any value, starts file upload.
When read, reports the status of the file transfer.
- 1: In progress.
- 0: Finished or not started.		1xEVENT **       N/A N/A
FLUPGRADE.GENERAL.STATUS[200]Status message of the upload process. Possible values:
- 'Ready: Initial status'.
- 'Ready: Finished correctly'.
- 'Failed', plus a short description of the error.		200xCHAR *       Ready: initial statusN/A N/A
FLUPGRADE.PROFILE.IDSelected configuration profile during last OSUP upgrade.
This value is from FACTORYRESET.PROFILE.ID configuration and it is get before the upgrade.		1xINT8U *** * * 0N/A N/A
FLUPGRADE.PROFILE.LAST_CHECKIndicates the result of the last OSUP upgrade related to the configuration profiles:
0: There has not been any OSUP upgrade.
1: Configuration profile ID was configured and found.
2: Configuration profile ID not configured.
3: Configuration profile ID configured but not found.
4 - 255: Reserved.		1xINT8U *** * * 0N/A N/A
LINKACTIVITY.PLC.ENABLED_BUTTONButton number used to control whether the PLC interface is enabled.1xINT32U *** *   255Button number (GPIO is configured in the UI component). Set to 255 to disable. 0-6,255
LINKACTIVITY.PLC.STATUS_LED_NUMBER_1LED number #1 used to report PLC link quality. Typically a GREEN LED.1xINT32U *** *   255LED number (GPIO is configured in the UI component). Set to 255 to disable. 0-6,255
LINKACTIVITY.PLC.STATUS_LED_NUMBER_2LED number #2 used to report PLC link quality. Typically a RED LED.1xINT32U *** *   255LED number (GPIO is configured in the UI component). Set to 255 to disable. 0-6,255
LINKACTIVITY.PLC.STATUS_THRESHOLD[3]This parameter is a vector of 3 values: TH1, TH2 and T.
Depending on the quality of the PLC link, the PLC status LEDs (#1 GREEN LED and #2 RED LED) will switch on/off according to the following rules:
- If the PLC link quality (measured in Mbps) is below TH1, only LED #2 will be on (RED).
- If the PLC link quality (measured in Mbps) is above TH1 and below TH2, both LEDs #1 and #2 will be on (GREEN + RED = ORANGE).
- If the PLC link quality (measured in Mbps) is above TH2, only LED #1 will be on (GREEN).
Additional notes:
- TH1 value must be lower or equal than TH2 value.
- TH2 must be greater than 0.
- The color will only change to ORANGE or RED if the link quality is under the threshold for at least T seconds (hysteresis in the 'down' direction).
- T must be greater than 0 and lower than 1800 seconds.		3xINT16U *** *   100,200,30Mbps for TH1 and TH2; seconds for T N/A
LINKACTIVITY.POWER.LED_NUMBERLED number used to report that power is on. Typically a GREEN LED.1xINT32U *** *   255LED number (GPIO is configured in the UI component). Set to 255 to disable. 0-6,255
LINKACTIVITY.STATE.FAULT_LED_NUMBERLED number used to report the fault status of the EoC board. Typically a RED LED.1xINT32U *** *   255LED number (GPIO is configured in the UI component). Set to 255 to disable. 0-6,255
LINKADAPTATION.MONITORS.DYN_PSDC_ATTShows the last Attenuation calculus performed over the CFR measure.1xINT16S *       00.25 dB Units N/A
LINKADAPTATION.MONITORS.DYN_PSDC_BOOST_ATT_THRAttenuation threshold from which the node enters in boost mode increasing the power up to -56dBm/Hz1xINT8U ***     63dB units 50 to 255dB
LINKADAPTATION.MONITORS.DYN_PSDC_CFR_MAX_FREQHigher frequency used to evaluate the CFR measure for PSCD purposes.1xINT32U *** *   27500Khz N/A
LINKADAPTATION.MONITORS.DYN_PSDC_CFR_MIN_FREQLower frequency used to evaluate the CFR measure for PSCD purposes.1xINT32U *** *   4250Khz N/A
LINKADAPTATION.MONITORS.DYN_PSDC_ENABLEEnables/Disables the dynamic PSD Ceiling performing by the Rx.1xBOOL *** *   YESN/A N/A
LINKADAPTATION.MONITORS.DYN_PSDC_IQRShows the last IQR calculus performed over the CFR measure.1xINT32S *       00.25 dB Units N/A
LINKADAPTATION.MONITORS.DYN_PSDC_IQRTHRConfigures the dynamic PSD Ceiling IQRTHR parameter.1xINT32S *** *   200.25 dB Units N/A
LINKADAPTATION.MONITORS.DYN_PSDC_LOW_ATT_THRAttenuation threshold from which the node increases the power from -96 to -86 dBm/Hz1xINT8U ***     5dB units 0 to 18dB
LINKADAPTATION.MONITORS.DYN_PSDC_REQ_VALShows the last PSD Ceiling value requested to the Tx side.1xINT8U *       0N/A N/A
LINKADAPTATION.MONITORS.DYN_PSDC_STATUSShows current status of the PSDC monitor. 0xF value means everything OK and running, internal error code otherwise.1xINT8U *       0x00N/A N/A
LINKADAPTATION.MONITORS.SNR_TRACK[16][17]Each row shows SNR tracking info for a given device Id. See LINKADAPTATION.MONITORS.SNR_TRACK_DESC parameter for more info.272xINT32S**       0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0N/A N/A
LINKADAPTATION.MONITORS.SNR_TRACK_DESC[154]Description of the SNR tracking parameters. Corresponds to the column headers of parameter LINKADAPTATION.MONITORS.SNR_TRACK.
- Device : Device Id.
- TimeStamp : Last time an SNR measure was done for given device. This parameter is only valid for Spirit PRO related products.
- LastDiff : Last difference between new SNR measure and the reference one. This parameter is only valid for Spirit PRO related products.
- LastRegion : Last region measured. This parameter is only valid for Spirit PRO related products.
- PSDC : PSD ceiling index.
- BpsRef0 : Reference BPS for region #0.
- BpsRef1 : Reference BPS for region #1.
- BpsRef2 : Reference BPS for region #2.
- BpsRef3 : Reference BPS for region #3.
- BpsCooked0 : BPS calculated after processing the last SNR measure for region #0.
- BpsCooked1 : BPS calculated after processing the last SNR measure for region #1.
- BpsCooked2 : BPS calculated after processing the last SNR measure for region #2.
- BpsCooked3 : BPS calculated after processing the last SNR measure for region #3.
- BpsMeas0 : Last BPS measured for region #0. This parameter is only valid for Spirit PRO related products.
- BpsMeas1 : Last BPS measured for region #1. This parameter is only valid for Spirit PRO related products.
- BpsMeas2 : Last BPS measured for region #2. This parameter is only valid for Spirit PRO related products.
- BpsMeas3 : Last BPS measured for region #3. This parameter is only valid for Spirit PRO related products.		154xCHAR *       Device,TimeStamp,LastDiff,LastRegion,PSDC,BpsRef0,BpsRef1,BpsRef2,BpsRef3,BpsCooked0,BpsCooked1,BpsCooked2,BpsCooked3,BpsMeas0,BpsMeas1,BpsMeas2,BpsMeas3- Device : 1-250.
- TimeStamp : Free running counter that works with the system clock (100 MHz). 32 bits.
- LastDiff : Percentage.
- LastRegion : 0-3.
- PSDC : 0-31.
- BpsRef0 : Bits per symbol.
- BpsRef1 : Bits per symbol.
- BpsRef2 : Bits per symbol.
- BpsRef3 : Bits per symbol.
- BpsCooked0 : Bits per symbol.
- BpsCooked1 : Bits per symbol.
- BpsCooked2 : Bits per symbol.
- BpsCooked3 : Bits per symbol.
- BpsMeas0 : Bits per symbol.
- BpsMeas1 : Bits per symbol.
- BpsMeas2 : Bits per symbol.
- BpsMeas3 : Bits per symbol.		 N/A
LINKADAPTATION.POLICY.AGGRESSIVE_MODEChannel adaptation aggressive mode bitmap :
- Bit 0 : If set to 1, discard multi tone map.
- Bit 1 : If set to 1, margin is enabled.
- Bit 2 : If set to 1, automatic margin is enabled. Subordinated to Bit 1.
1xINT32U ***     0xFFFFFFFFN/A N/A
LINKADAPTATION.POLICY.ALLOWED_FEC_RATESAllowed FEC rates bitmap :
- Bit 0 : Set to 1 to allow FEC Rate 1/2
- Bit 1 : Set to 1 to allow FEC Rate 2/3
- Bit 2 : Set to 1 to allow FEC Rate 5/6
- Bit 3 : Set to 1 to allow FEC Rate 16/18
- Bit 4 : Set to 1 to allow FEC Rate 20/21
1xINT32U ***     0x0000001FN/A N/A
LINKADAPTATION.PRECODING.ENABLEEnables/Disables the angles precoding measures.1xBOOL ***     YESN/A N/A
LINKADAPTATION.ROBUSTREGION.ENABLEEnables/Disables the robust region functionality. The enable only works since the 88LX515x chip.1xBOOL ***     YESN/A N/A
LINKADAPTATION.STATS.RESETWhen set to YES, it resets all the statistic counters in the LINKADAPTATION.STATS.INFO parameter.1xBOOL **      YESN/A N/A
LINKADAPTATION.SYNC.ENABLEEnables/Disables the dynamic configuration of synchronisation bands1xBOOL ***     YESN/A N/A
LINKADAPTATION.SYNC.PARAMS[10]Synchronisation parameters:
- MIN_SNR : Minimum SNR of a carrier to count it as valid. In 0.25dB units.
- PERC : Percentage of valid carriers within each band to enable it.
- MIN_BANDS : Bitmap with mandatory synchronisation bands to enable (regardless their number of valid carriers).
- FIXED_BANDS : If this parameter is != 0, use always this bitmap and do not analyse SNR.
- CURR_BANDS : Bitmap with synchronisation bands currently enabled.
- MIN_NUM_BANDS : For home networking, if number of valid sync bands detected is lower than this, use all bands.
10xINT32U ***     0x00000014,0x00000046,0x0000000E,0x00000000,0x00000000,0x00000003,0x00000000,0x00000000,0x00000000,0x00000000N/A N/A
LINKADAPTATION.SYNC.PARAMS_DESC[150]Synchronisation parameters.
See the description in the LINKADAPTATION.SYNC.PARAMS parameter for a detailed information about columns.		150xCHAR *       MIN_SNR,PERC,MIN_BANDS,FIXED_BANDS,CURR_BANDS,MIN_NUM_BANDS,RES1,RES2,RES3,RES4N/A N/A
LINKADAPTATION.WATERFILLING.ENABLEEnables/Disables the waterfilling functionality.1xBOOL ***     YESN/A N/A
LINKADAPTATION.WHITENING.ENABLEEnables/Disables the Noise whitening Procedure. The enable only works since the 88LX515x chip.1xBOOL *** *   YESN/A N/A
LOGFILE.FTPSERVER.HOST[256]Hostname or IP (IPv4 or IPv6) of FTP server.256xCHAR *** *    N/A N/A
LOGFILE.FTPSERVER.LOGIN[40]Login to connect to FTP server.40xCHAR *** *    N/A N/A
LOGFILE.FTPSERVER.PASSWORD[15]Password to connect to FTP server.15xCHAR *** *   ****N/A N/A
LOGFILE.GENERAL.DATA_INTERVALTime interval between logs.1xINT32U *** *   1seconds 1-50000000
LOGFILE.GENERAL.DESTINATIONConfigure log file destination:
- LOCAL: Log file is stored in modem ('b:/logfile/logfile_last').
- FTP: Log file is sent by FTP to server.		1xLOGFILE_DESTINATION *** *   FTPN/A LOCAL,FTP
LOGFILE.GENERAL.ENABLESpecifies if the logging feature is enabled.1xBOOL *** *   NON/A N/A
LOGFILE.GENERAL.SEND_FILEWhen written, log file is sent to local disk or to FTP server.
When read, returns status of sending file progress:
- 0: Finished.
- 1: Still in progress.		1xEVENT **       N/A N/A
LOGFILE.GENERAL.STATUS[100]Report info about log process (both errors and status).100xCHAR *       Ready: stoppedN/A N/A
LOGFILE.GENERAL.UPLOAD_INTERVALTime interval between automatic uploads of the log file to an external FTP server.
Set to 0 to disable automatic upload.		1xINT32U *** *   5minutes 0,1-50000000
MACDOMAIN.POWERSAVING.CONFIG[4]Array of configuration values related to powersaving functionality.
Remark: DO NOT CHANGE THOSE VALUES WITHOUT MXL ADVICE.		4xINT32U ***     0x0000001F,0x000095C9,0x00000000,0x00000000N/A N/A
MACDOMAIN.POWERSAVING.ENABLEEnable usage of powersaving under normal functionality.1xBOOL ***     NON/A N/A
MACSYNCH.CONFIG.FAIRNESSThis is a boolean value that enables/disables the automatic external scheduling matrix optimization that guarantees channel time fairness among all nodes.
When disabled, the configured external scheduling will be used unmodified. Otherwise, it will be automatically 'balanced' by removing channel time from those nodes with too many slots.
Example: let's say you configure an external scheduling plan where node (A) can use the channel all the MAC cycle while node (B) only the second half of the MAC cycle (maybe because node (B), due to its physical location, would interfere with something else on the first half of the MAC cycle and we don't want this to happen). With this schedule, (A) would get much more channel time than (B) (ie. the first MAC cycle slots all the times + the second MAC cycle slots half of the times). If in this situation we enable 'fairness', the scheduling plan will automatically be modified so that (A) is forbidden to transmit on the first half of the MAC cycle, making it completely fair two both nodes.
Notice that enabling 'fairnes' will only modify the scheduling plan by adding more restrictions and never by removing already existing ones (this makes sense, as those restrictions originally provided by the external scheduling configuration were placed there for some reason!)		1xBOOL *** *   NON/A N/A
MACSYNCH.CONFIG.MIN_TXOP_ADJUSTWhen using point-to-multipoint MAC scheme, when the available time is lower than the TXOP assigned to a node, the master reducesthe transmission opportunity in order to adjust it to the available time in order to use as much as time as possible. This parameter indicates which is the minimum time remaining to apply TXOP reduction. If remaining time is lower than this parameter the master does not transmit and waits until the next STXOP.The value 0 indicates that TXOP reduction is applied always, despite the remaining time is very short
1xINT32U *** *   110ns 0 - 600000 (6ms)
MACSYNCH.STATS.INFO[16]G.hn MAC layer statistics.
See the description in the MACSYNCH.STATS.INFO_DESC parameter for a detailed information about columns.		16xINT32U *       N/AN/A N/A
MACSYNCH.STATS.INFO_DESC[800]Gets the column description for the MACSYNCH.STATS.INFO parameter.
Counters for different events related with the G.hn MAC behaviour:
- TIMER: Time stamp. Free running counter that works with the system clock (100 MHz). 32 bits.
- MSECS: Time stamp. Milliseconds since last boot.
- HANDLER_MAP_TX: Number of transmitted MAP-A.
- HANDLER_MAP_RX: Number of received MAPs (MAP-A and MAP-D).
- HANDLER_PH_RX: Number of receptions (not MAP-A nor MAP-D).
- HANDLER_SYNCHRO_LOST: It could be number of ACK or BACK lost, depending on the programation.
- TS_REPORT_USED: Number of transmissions (including MAP-D).
- WARNING_STXOP_RESYNC: Number of STXOP re-synchronizations.
- WARNING_MAP_SLOT_NOT_PROC_ANOMALY: Number of errors transmitting the MAP-A.
- WARNING_MAP_SC_TX_ANOMALY: Number of errors transmitting the MAP-A.
- WARNING_SCHED_SLOT_NOT_PROC_ANOMALY: Number of errors transmitting MSG, BMSG, PROBE or MAP-D.
- WARNING_SCHED_SC_TX_ANOMALY: Number of errors transmitting MSG, BMSG, PROBE or MAP-D.
- WARNING_REPLY_SLOT_NOT_PROC_ANOMALY: Number of errors transmitting ACK or BACK.
- WARNING_REPLY_SC_TX_ANOMALY: Number of errors transmitting ACK or BACK.
- WARNING_TS_NOT_FOUND_ANOMALY: Number of times that the firmware has not been able to program the hardware on time.
- WARNING_STXOP_ANOM: Number of times the node has lost right to transmit in STXOP due to lost of TS synchronization.
Final string depends on product so it is generated in runtime.		800xCHAR *       N/AN/A N/A
MACSYNCH.STATS.RESETWhen set to YES it resets all the statistic counters in the MACSYNCH.STATS.INFO parameter.1xBOOL **      YESN/A N/A
MAPMANAGER.GENERAL.DOMAIN_REREG_TIMEOUTRe-registration timeout of the Domain. Indicates the maximum time, in units of two seconds (as specified in ITU-T G.9962), for a node to re-register with the DM.
This parameter shows the re-registration timeout established by the DM (whether node is DM or not). The parameter NAP.GENERAL.REREGISTRATION_TIMEOUT is used to configure the re-registration timeout when the node is DM.		1xINT32U *       30Units of 2 seconds. 0 means that re-registration is disabled. 0,5-63
MAPMANAGER.HGF.AUX_INFO_IDS[218]Obtain a list of the supported and ignored auxiliary info fields, according to the format defined by HGF.
218xINT8U *       9,1,68,79,77,95,73,78,70,79,3,83,95,73,78,95,83,67,72,4,80,83,68,95,73,78,70,79,7,84,73,77,69,82,95,73,78,9,82,69,71,95,67,79,68,69,12,78,68,73,77,95,73,78,70,13,83,69,67,95,73,78,70,79,14,65,68,68,68,79,77,73,78,17,65,68,68,95,77,73,77,79,15,0,82,69,83,69,82,86,69,68,2,76,95,73,78,95,83,67,72,5,78,69,87,95,68,77,73,68,6,66,75,95,68,77,95,73,68,8,82,69,83,69,82,86,69,68,10,68,79,68,95,85,80,68,84,11,82,69,83,69,82,86,69,68,15,80,87,83,86,95,85,80,68,16,82,69,83,69,82,86,69,68,18,67,87,73,78,95,85,80,68,19,78,77,75,68,66,85,80,68,20,80,82,79,88,89,95,73,78,21,67,65,84,69,71,79,82,89,22,0,0,0,0,0,0,0,0,23,0,0,0,0,0,0,0,0N/A N/A
MASTERSELECTION.DOMAIN.LOST_MAPSNumber of domain MAPs missed or not properly processed.1xINT32U **      0N/A N/A
MASTERSELECTION.DOMAIN.MASTER_LOSTNumber of times the Domain Master of the domain has been lost.1xINT32U **      0N/A N/A
MASTERSELECTION.DOMAIN.NUM_NODESNumber of nodes registered in the same domain than mine.1xINT8U *       0N/A N/A
MASTERSELECTION.DOMAIN.REGISTRATIONSNumber of registrations on a domain.1xINT32U **      0N/A N/A
MASTERSELECTION.DOMAIN.RESETReset of all Master Selection Domain subgroup variables.1xBOOL **      YESN/A N/A
MASTERSELECTION.GENERAL.AUTOMATIC_MASTERIf set to 0, the node selects Automatic Master role after pairing.If set to 1, the node is forced to be Automatic Master.If set to 2, the node is not allowed to become Automatic Master.1xINT8U *** *   0N/A N/A
MASTERSELECTION.GENERAL.CHECK_DM_NAMECheck domain name when registering to DM (G.now only)1xBOOL *** *   NON/A N/A
MASTERSELECTION.GENERAL.CONT_BASED_ON_POWERIf set to YES, the contention slot in the RCBTS of the EP/CPE will be chosen in function of the received power from the DM/HE.If set to NO, the contention value is chosen randomly.1xBOOL *** *   YESN/A N/A
MASTERSELECTION.GENERAL.DM_QUIT_WHEN_ALONEEnable/disable a feature that allows the DM to become EP when no EPs are registered. This is used to fix situations where two DMs exist that cannot see each other because they are mutually overwriting their MAPs. This is not needed in systems where NDIM isenabled.1xBOOL *** *   NON/A N/A
MASTERSELECTION.GENERAL.ENABLED_AT_BOOTEnable/disable Domain Master Selection (DMS) process at boot. DMS will basically monitor the reception of MAC frames in order to decide what type of node must be: END_POINT or DOMAIN_MASTER.1xBOOL *** *   YESN/A NONE,DOMAIN_MASTER,END_POINT
MASTERSELECTION.GENERAL.FORCED_DM_DODIf set to 0, a node forced as DM will select a new DOD that does not confict with the ones used by other visible domains.A different value will be used as DOD, even if it is already used by other nodes.1xINT8U **      0N/A N/A
MASTERSELECTION.GENERAL.FORCE_NODEForce the modem to have a particular role (NONE, END_POINT , RELAY_NODE (Only G.PRO) or DOMAIN_MASTER).1xFORCE_NODE ***     NONEN/A N/A
MASTERSELECTION.GENERAL.SUCCESSORSetting to ensure a modem will become new Domain Master in case of network down. If the flag to YES: - Becomes DM immediately after detecting a master loss - Automatically sets MASTERSELECTION_GENERAL_SUCCESSOR = NO, this is a one shot flag - Declares itself as MASTERSELECTION.GENERAL.FORCE_NODE = DOMAIN_MASTER during 30 seconds - After 30 seconds the FORCE_NODE is removed unless this setting is stored in flash1xBOOL **      NON/A N/A
MASTERSELECTION.HGF.DEVICE_MODESimilar to MASTERSELECTION_GENERAL_FORCE_NODE, adapted for LCMP HGF:
- 0: NONE
- 1: DM
- 2: EP
- 3: RN (Only G.PRO)		1xINT8U **      0N/A 0,1,2
MASTERSELECTION.STATS.DESC[50]Gets the column description for the MASTERSELECTION.STATS.INFO parameter.50xCHAR *       N/AN/A N/A
MASTERSELECTION.STATS.INFO[3]Master Selection statistics: TIMER, msec, total number of Master Domain losses.3xINT32U *       N/AN/A N/A
MASTERSELECTION.STATS.RESETResets all the statistic counters.1xBOOL **      YESN/A N/A
MASTERSELECTION.WATCHDOG.DM_FORCED_CHECKEnables/disables a watchdog check to trigger self healing of MAP generation process when DM is forced.1xBOOL ***     YESN/A N/A
MCAST.GENERAL.FAST_LEAVE_ENABLEIf YES, when a Leave-Group is received from an specific port (G.hn or Ethernet), the multicast stream forwarding for this port is blocked.
If NO, upon the reception of a Leave-Group, the multicast stream is forwarded until three Group-Specific or General Queries are sent for the group and no Reports are received		1xBOOL ***     NON/A N/A
MCAST.GENERAL.FILTER_JOINS_IN_VSIf enabled, the Video Source will ignore all joins from its video source port.1xBOOL ***     NON/A N/A
MCAST.GENERAL.FORCED_DM_ENABLEIf enabled, the Video Source node is forced to be Domain Master.
If disabled, Domain Master selection is free.		1xBOOL ***     NON/A N/A
MCAST.GENERAL.FORCED_GW_ENABLEIf enabled, the node connected to the Gateway will be configured as the Video Source and queries from other nodes will be ignored.
If disabled,the Video source will set depending on the received queries.		1xBOOL ***     NON/A N/A
MCAST.GENERAL.ICMP_ROUTER_DISCOVERIf enabled, the node will send ICMP router discovery packets while the video source has not been detected yet.
If disabled, do not send any ICMP router discovery packet.		1xBOOL ***     YESN/A N/A
MCAST.GENERAL.IGMP_ENABLESet to enable/disable the IGMP snooping.1xBOOL ***     NON/A N/A
MCAST.GENERAL.IGMP_IP_EXCEPTIONS[10][9]Use to define up to 10 Multicast IP Exceptions.
Each Multicast IP Exception is created as a group of ENABLE+EXCEPTION_IP+EXCEPTION_MASK.
When there is an incoming packet, whose INCOMING_IP is inside the MCAST.GENERAL.IGMP_IP_RANGES_DEF, it is matched (AND operation) against the EXCEPTION_MASK of each of the defined exceptions.
If the AND operation INCOMING_IP EXCEPTION_MASK equals the EXCEPTION_IP of the exception, then the incoming packet is treated as a non IGMP packet.
This behaviour allows for the creation of exceptions applying to individual IPs as well as IP groups.

Notes:
- Beware that EXCEPTION_MASK and EXCEPTION_IP pairs have to be consistent. If the IP and MASK are chosen so that the operation EXCEPTION_MASK INCOMING_IP will never match EXCEPTION_IP, the rule will obviously never be applied.
- If the defined exception is outside the ranges defined in MCAST.GENERAL.IGMP_IP_RANGES_DEF then the exception is ignored.

CONFIGURATION
A Multicast IP exception is defined as one CFL parameter. The CFL parameter has a length of 9 bytes, which are divided into three groups.
- Byte 1 --> ENABLE --> 0 means the exception is disabled, 1 means the exception will be applied.
- Bytes 2-5 --> EXCEPTION_IP --> 4 Bytes defining the result between INCOMING_IP EXCEPTION_MASK. Is like the result of the application of the rule.
- Bytes 6-9 --> EXCEPTION_MASK --> 4 Bytes defining the mask to be additioned to the INCOMING_IP. Is like the rule.

EXAMPLES
- For example: 0, x,x,x,x, x,x,x,x to disable this IP/MASK
- For example: 1, 224,5,230,0, 255,255,255,0 will consider as exceptions all 224.5.230.x
- For example: 1, 224,5,230,0, 100,255,255,0 will be a non consistent configuration
- For example: 1, 224,5,0,0, 255,255,0,0 will consider as exceptions all 224.5.x.x
- For example: 1, 224,7,230,211, 255,255,255,255 will consider as exception 224.7.230.211
- For example: 1, 224,7,230,200, 255,255,255,248 will consider as exception from 224.7.230.200 to 224.7.230.207		90xINT8U****     0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0N/A ENABLE could be only 0 or 1. All values different to 0 will be set as 1.
IP and MASK fields could be from 0-255
MCAST.GENERAL.IGMP_IP_RANGES_DEF[16]Use to define up to 4 Multicast IP RANGES. All Multicast packets within those IP ranges will be treated as IGMP report and forwarded to video source. Packets outside those ranges will be treated as unknown traffic.
Those IP RANGES are defined through 16 bytes organized as follow:
- Bytes 1 to 4: Range 1 (B1.B2.X.X to B3.B4.X.X)
- Bytes 5 to 8: Range 2 (B5.B6.X.X to B7.B8.X.X)
- Bytes 9 to 12: Range 3
- Bytes 13 to 16: Range 4
For example: 224,0,230,1,250,0,260,20,0,0,0,0,0,0,0,0
- Range 1 from 224.0.x.x to 230.1.x.x
- Range 2 from 250.0.x.x to 260.20.x.x
- Range 3 and 4 are not defined.
Note: This parameter can only be changed if IGMP is not enabled (parameter MCAST.GENERAL.IGMP_ENABLE set to NO).		16xINT8U ***     224,0,239,254,0,0,0,0,0,0,0,0,0,0,0,0N/A N/A
MCAST.GENERAL.MCAST_FILTERING_ENABLEEnables the Multicast Filtering feature.
If enabled, all the unsolicited multicast traffic will be blocked.
In IPv4 multicast traffic, only the traffic between the IP ranges defined in the MCAST.GENERAL.IGMP_IP_RANGES_DEF parameter will be blocked in unsolicited.
Warning: This feature implies a higher CPU load, so it is advisable to enable it only in the Video Source.
Only 100 Kbps of broadcast traffic could be managed in this mode.		1xBOOL ***     NON/A N/A
MCAST.GENERAL.MCAST_FILTERING_IN_VSIf YES, then if the Multicast Filtering feature is enabled, it is only activated in the Video Source.
If NO, then if the Multicast Filtering feature is enabled, it is activated in all nodes.		1xBOOL ***     NON/A N/A
MCAST.GENERAL.MLD_ENABLESet to enable/disable the MLD snooping.1xBOOL ***     NON/A N/A
MCAST.GENERAL.MLD_IP_EXCEPTIONS[10][17]Use to define up to 10 Multicast IPv6 Exceptions.
Each Multicast IPv6 Exception is created as a group of ENABLE+EXCEPTION_IP+EXCEPTION_MASK.
When there is an incoming packet with IPv6, whose INCOMING_IP is inside the MCAST.GENERAL.MLD_IP_RANGES_DEF, it is matched (AND operation) against the EXCEPTION_MASK of each of the defined exceptions.
If the AND operation INCOMING_IP EXCEPTION_MASK equals the EXCEPTION_IP of the exception, then the incoming packet is treated as a non IGMP packet.
This behaviour allows for the creation of exceptions applying to individual IPs as well as IP groups.

Notes:
- Beware that EXCEPTION_MASK and EXCEPTION_IP pairs have to be consistent. If the IP and MASK are chosen so that the operation EXCEPTION_MASK INCOMING_IP will never match EXCEPTION_IP, the rule will obviously never be applied.
- If the defined exception is outside the ranges defined in MCAST.GENERAL.IGMP_IP_RANGES_DEF then the exception is ignored.

CONFIGURATION
A Multicast IP exception is defined as one CFL parameter. The CFL parameter has a length of 17 values of 16bits, which are divided into three groups.
- 1 --> ENABLE --> 0 means the exception is disabled, 1 means the exception will be applied.
- 2-9 --> EXCEPTION_IP --> 8x16bits defining the result between INCOMING_IP EXCEPTION_MASK. It is like the result of the application of the rule.
- 10-17 --> EXCEPTION_MASK --> 8x16bits defining the mask to be additioned to the INCOMING_IP. It is like the rule.

EXAMPLES
- For example: 0, x,x,x,x,x,x,x,x, x,x,x,x,x,x,x,x to disable this IP/MASK
- For example: 1, 0x0001,0xff02,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000, 0xffff,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000 will consider as exceptions all ff02:x:x:x:x:x:x:x		170xINT16U****     0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000N/A ENABLE could be only 0 or 1. All values different to 0 will be set as 1.
IP and MASK fields could be from 0x0000-0xFFFF
MCAST.GENERAL.MLD_IP_RANGES_DEF[4][16]Use to define up to 4 Multicast IPv6 RANGES. All Multicast packets within those IPv6 ranges will be treated as MLD report and forwarded to video source. Packets outside those ranges will be treated as unknown traffic.
Those IPv6 RANGES are defined through pairs of 2 IPv6 organized as follow:
- Elements from 1 to 8: Start range IPv6
- Elements from 9 to 16: End range IPv6
For example: 0xff02,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x1000,0xff02,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x9FFF
- Range from 0xff02,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x1000 to 0xff02,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x9FFFNote: This parameter should only be changed if MLD is not enabled (parameter MCAST.GENERAL.MLD_ENABLE set to NO).		64xINT16U****     0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000N/A N/A
MCAST.GENERAL.REPORT_BROADCAST_ALLOWEDReport broadcast behaviour.
- If set to YES, the node is configured to broadcast reports depending on configuration in parameter MCAST.GENERAL.REPORT_BROADCAST_MODE.
- If set to NO, Reports are sent only to the video source if it is known.
The term 'video source' refers to the node which Ethernet port is connected directly to the Home Gateway.
It is advisable to set it to NO in IGMP v1 and v2 scenarios with more than one STB. If not, broadcasted reports could lead to prevent other STB to join the reported channel (as they think there is no need to transmit the report packet again).		1xBOOL ***     NON/A N/A
MCAST.GENERAL.REPORT_BROADCAST_MODEReport broadcast forwarding behaviour when the MCAST.GENERAL.REPORT_BROADCAST_ALLOWED is enabled.
- If 0 then broadcast reports only when the video source is unknown.
- If 1 then broadcast reports always.
- If 2 then broadcast reports always if IGMPv3 and only when video source is unknown in others.
The term 'video source' refers to the node which Ethernet port is connected directly to the Home Gateway.
1xINT8U ***     0N/A N/A
MCAST.GENERAL.VIDEO_SOURCE_MODE[10]Video Source Mode.
- AUTO, A query from PLC or external interface turns node in video source.
- FORCED, A query from PLC is ignored and a query from external interface turns node in video source.
- FORBIDDEN, A query from external interface is ignored, node will never be video source .
10xCHAR ***     AUTON/A AUTO,FORBIDDEN,FORCED
MCAST.INFO.VIDEO_MACS_LISTList of the MACs detected as videos.1xMAC_ADDR**       00:00:00:00:00:00N/A N/A
MCAST.INFO.VIDEO_MAC_DIDSBitmap list of Devide IDs associated to the MAC configured in MCAST.INFO.VIDEO_MAC_INFO_GET.
First word is for bits [31:0], second word for [63:32] and so on.		1xINT32U**       0x00000000N/A N/A
MCAST.INFO.VIDEO_MAC_INFO_GETConfigure MAC to get related routing information.
If 0, do not get any information.		1xMAC_ADDR **      00:00:00:00:00:00N/A N/A
MCAST.INFO.VIDEO_SOURCE_DIDDID of the modem connected to the video source by one of its external interfaces.
If 0, Video Source has not been detected yet.		1xINT8U *       0N/A N/A
MEASUREDEBUG.GENERAL.ENABLEEnables/Disables SNR, CFR, Noise, etc measures for debugging1xBOOL *** *   YESN/A YES/NO
MNMTMSGMNG.GENERAL.MMPL_COMPRESSION[10]MMPL Comperssion Algorithm10xCHAR ***     NONEN/A DISABLED|HUFFMAN
NAP.GENERAL.ACCESS_ALLOWED_MAC_LIST[16]Access Allowed MAC List. MAC address of the EPs authorized to register to the DM.16xMAC_ADDR**** *   00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00MAC address MAC address
NAP.GENERAL.ACCESS_CONTROL_ENABLEDEnable/Disable the Access Control1xBOOL *** *   NOYES | NO YES | NO
NAP.GENERAL.ACCESS_REQUEST_MAC_LIST[32]Access Request MAC List. List of the MACs of the nodes that are trying to register but they are not allowed32xMAC_ADDR**       00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00MAC address MAC address
NAP.GENERAL.REREGISTRATION_TIMEOUTRe-registration timeout. Maximum time in units of two seconds (as specified in ITU-T G.9962) for a node to re-register with the DM.
Set to 0 to disable re-registration.
This value sets the re-registration timeout when this node is the DM.
When this node is not the DM, the value set by the current DM can be read from MAPMANAGER.GENERAL.DOMAIN_REREG_TIMEOUT.		1xINT32U *** *   30Units of 2 seconds. Set to 0 to disable re-registration. 0,5-63
NAP.HGF.ACTION_FORCE_REG_REQThe node shall send registration request instead of re-registration request.1xINT8U **      0N/A N/A
NAP.HGF.ACTION_FORCE_RESIGN[2]Set Device ID of a EP node in order DM performs force resignation of that EP node from the domain.2xINT8U **      0,0Device Id present in the Domain 1-250
NAP.HGF.ACTION_RESIGNPerform self resignation from the domain.1xINT8U **      0N/A N/A
NAP.HGF.REGISTRATION_CODE[7]Mac to apply this code. Code will be used if different than 0 to force a certain rejection code in the registration procedure.7xINT8U **      0x00,0x00,0x00,0x00,0x00,0x00,0x00N/A Mac to apply this code. Registration Codes as per G.9960 Table 8-15.
NAP.HGF.REGISTRATION_STATUSUsed to check whether a node is registered or not and if it is EP or DM.1xINT8U *       0N/A Byte 0 [0:0] -> Node registration status 0 indicates 'not registered'. 1 indicates 'registered'.
Byte 0 [1:1] -> Node role 0 indicates EP. 1 indicates DM (only valid id node is registered).
Byte 0 [7:2] -> reserved Reserved by HGF.
NAP.HGF.REREGISTRATION_ENABLEEnables or disables re-registration requests from the EP.1xINT8U **      1N/A 1: Enable, 0: Disable
NAP.HGF.REREGISTRATION_TIMEOUTThis is actually mapped to NAP.GENERAL.REREGISTRATION_TIMEOUT, but using only 1 byte. This is needed for HGF LCMP parameters.
1xINT8U **      60Units of 1 second. Set to 0 to disable re-registration. 0,10-126
NAP.HGF.SUPPRESS_REG_RESPONSESet to 1 to suppress the ADM_RegistrationRequest.cnf messages for al nodes when being a DM.1xINT8U **      0N/A N/A
NODE.GENERAL.AUTOMATIC_MASTERIndicates if the node is currently working as Automatic Master (if value is YES) or not1xBOOL ***   * NON/A N/A
NODE.GENERAL.CELL_IDCell identifier inside a cluster. It corresponds to cell Automatic Mater MAC address.1xMAC_ADDR ***   * 00:00:00:00:00:00N/A N/A
NODE.GENERAL.DEVICE_ALIAS[64]A non-volatile handle used to reference this instance.The Alias provides a mechanism for an ACS to label this instance for future reference.64xCHAR *** *   MaxLinear GHN NODEN/A N/A
NODE.GENERAL.DEVICE_IDDevice Id of this node.1xINT8U **    * 0N/A 1-250
NODE.GENERAL.DEVICE_NAME[64]This parameter represents the name of the node assigned by the NME.64xCHAR *** *   MaxLinear GHN NODEN/A N/A
NODE.GENERAL.DID_PREFDID to be used by the node if becoming DM if is a valid DID [1-250], otherwise it will use DID = 11xINT8U *** *   0N/A 1-250
NODE.GENERAL.DNIDomain Network Identifier of this Domain.1xINT16U **    * 0x0000N/A N/A
NODE.GENERAL.DNI_KEYKey used to generate the DNI.1xINT8U **    * 4N/A 2-9
NODE.GENERAL.DOMAIN_IDDomain Id of this Domain.1xINT8U ***     0N/A 0-15
NODE.GENERAL.DOMAIN_ID_MODEMethod used to select the Domain Id:
- 1: Automatically select the Domain Id based on the value of NODE.GENERAL.DOMAIN_NAME.
- 3: Manually select the Domain Id set with NODE.GENERAL.DOMAIN_ID and use the extended seed set with NODE.GENERAL.EXTENDED_SEED_IDX.
- 5: Automatically (G.now) select the Domain Id based on power and CFR information.		1xINT8U *** *   1N/A 1,3
NODE.GENERAL.DOMAIN_MASTER_DEVICE_IDDevice Id of the Domain Master of this Domain.1xINT8U **    * 0N/A 1-250
NODE.GENERAL.DOMAIN_MASTER_MAC_ADDRMAC address of the Domain Master of this Domain.1xMAC_ADDR **    * 00:00:00:00:00:00N/A N/A
NODE.GENERAL.DOMAIN_NAME[33]Domain Name of this Domain.33xCHAR *** *   HomeGridN/A N/A
NODE.GENERAL.ENABLESet to NO to disable the G.hn interface of this node.1xBOOL **      NON/A N/A
NODE.GENERAL.EXTENDED_SEED_IDXSet to use an extended seed, different to the automatic seeds used when NODE.GENERAL.DOMAIN_ID_MODE is set to 1.NODE.GENERAL.DOMAIN ID must be set to 0 and NODE.GENERAL.DOMAIN_ID_MODE must be set to 3.
Note: Seeds above (59) can only be used in PHONE profile.		1xINT16U *** *   0N/A 0-(999)
NODE.GENERAL.LAST_CHANGEThis parameter represents the accumulated time in seconds since the interface entered its current operational state.1xINT32U **    * 0seconds N/A
NODE.GENERAL.NODE_TYPECurrent role of this node in the Domain.1xNODE_NODE_TYPE **    * NOT_INITN/A DOMAIN_MASTER,END_POINT
NODE.GENERAL.NUM_HOPSThis parameter represents the number of hops up to the Domain Master1xINT8U **    * 0N/A 0-16
NODE.GENERAL.PROXY_DEVICE_IDDevice Id of the node (proxy or DM) through which this node registered to this Domain.1xINT8U **    * 0N/A 1-250
NODE.GENERAL.PROXY_MAC_ADDRMAC address of the Proxy node.1xMAC_ADDR **    * 00:00:00:00:00:00N/A N/A
NODE.HGF.CURRENT_NODE_TYPEReturns is the device is EP, DM or RN.1xINT8U *       0N/A 0->EP, 1->DM, 2->RN
NODE.HGF.RAND_DOD_ENABLEDSet to 1 to enable automatic DOD mode. Set to 0 to fix its value with NODE_GENERAL_DOMAIN_ID.1xINT8U **      1N/A 0-1
NTP.GENERAL.ENABLEDEnable/disable NTP client.1xBOOL ***     YESN/A N/A
NTP.GENERAL.HOST[256]Hostname or IP (IPv4 or IPv6) of NTP server.256xCHAR ***     clock.isc.orgN/A N/A
NTP.GENERAL.HOST2[256]Hostname or IP (IPv4 or IPv6) of NTP server (2nd option).256xCHAR ***     time.google.comN/A N/A
NTP.GENERAL.HOST3[256]Hostname or IP (IPv4 or IPv6) of NTP server (3rd option).256xCHAR ***      N/A N/A
NTP.GENERAL.HOST4[256]Hostname or IP (IPv4 or IPv6) of NTP server (4th option).256xCHAR ***      N/A N/A
NTP.GENERAL.HOST5[256]Hostname or IP (IPv4 or IPv6) of NTP server (5th option).256xCHAR ***      N/A N/A
NTP.GENERAL.OPT31_CB_INSTALLIf TRUE, a default callback is installed to handle DHCP Option 31 callback. Otherwise a different one can be installed by customers.1xBOOL ***     YESN/A N/A
NTP.GENERAL.OPT42_CB_INSTALLIf TRUE, a default callback is installed to handle DHCP Option 42 callback. Otherwise a different one can be installed by customers.1xBOOL ***     YESN/A N/A
NTP.GENERAL.RESYNC_TIMEConfigure re-synchronization interval time.1xINT16U ***     30minutes 1-65535
NTP.GENERAL.STATUS[32]NTP client status. Enumeration of Disabled. Unsynchronized (absolute time has not yet been set). Synchronized (device has acquired accurate absolute time). Error_FailedToSynchronize (device failed to acquire accurate absolute time)32xCHAR **    * DisabledN/A N/A
PACKETCLASSIFIER.GENERAL.ARP_CLASS_MAPMapping ARP to a Class Value.
1xINT8U *** *   0Class value 0-7
PACKETCLASSIFIER.GENERAL.ARP_CLASS_MAP_ENEnable/disable Arp/Class mapping.1xBOOL *** *   NON/A N/A
PACKETCLASSIFIER.GENERAL.CLASSIFY_RULES[8][4]Rules used to classify (assign a Type to a packet) identified (thanks to matching rules) packets.
PACKETCLASSIFIER.GENERAL.TYPE_CLASS_MAP_EN must be disabled to be able to modify this parameter.		32xINT16U**** *   0x0007,0x00E0,0x0000,0x0001,0x0007,0x00E0,0x0020,0x0001,0x0007,0x00E0,0x0040,0x0001,0x0007,0x00E0,0x0060,0x0001,0x0007,0x00E0,0x0080,0x0001,0x0007,0x00E0,0x00A0,0x0001,0x0007,0x00E0,0x00C0,0x0001,0x0007,0x00E0,0x00E0,0x0001Format: OFFSET, BITMASK, PATTERN, ENABLE.
Note: OFFSET value is the actual 16-bit offset in the packet,so it is totally dependent on Frame Type (Ethernet, 802.1Q or 802.1ad frame).
Example: If the frame field of interest is the Ethernet Type, the offset is:
- 6 if the frame is an Ethernet Frame.
- 8 if the frame is an 802.1Q Frame.
- 10 if the frame is an 802.1ad Frame.
Remember that OFFSET is 16-bit unit value (half of the typical byte unit value).		 N/A
PACKETCLASSIFIER.GENERAL.CLASS_TO_PRIO_QUEUE_MAP[8]Mapping of each CLASS to a Queue Priority in our System (Possible Values 0-3).
8xINT8U *** *   1,0,0,1,2,2,3,3Queue Priority Value 0-3
PACKETCLASSIFIER.GENERAL.DEFAULT_CLASSDefault Class value assigned to a packet when:
- Both Type/Class and Vlan/Class mapping are disabled, or
- Type/Class map enabled, but no Type Rule is met, or
- Vlan/Class map is enabled, but VLAN tag is not valid.		1xINT8U *** *   0Class value 0-7
PACKETCLASSIFIER.GENERAL.DSCP_CLASS_MAP[64]Mapping of each DSCP value to a Class Value.
64xINT8U *** *   0,0,0,0,0,0,0,0,1,1,1,1,1,1,1,1,2,2,2,2,2,2,2,2,3,3,3,3,3,3,3,3,4,4,4,4,4,4,4,4,5,5,5,5,5,5,5,5,6,6,6,6,6,6,6,6,7,7,7,7,7,7,7,7Class value 0-7
PACKETCLASSIFIER.GENERAL.DSCP_CLASS_MAP_ENEnable/disable Dscp/Class mapping.1xBOOL *** *   NON/A N/A
PACKETCLASSIFIER.GENERAL.FRAME_TYPEEthernet Frame Type:
- 0: Ethernet Frame.
- 1: 802.1Q Tagged Frame.
- 2: 802.1qad Double Tagged Frame.
1xINT8U *** *   0N/A 0-2
PACKETCLASSIFIER.GENERAL.MATCHING_RULES[2][4]Rules used to identify packets to be classified.Both rules can be enabled/disabled individually.
PACKETCLASSIFIER.GENERAL.TYPE_CLASS_MAP_EN must be disabled to be able to modify this parameter.		8xINT16U**** *   0x0006,0xFFFF,0x0800,0x0001,0x0000,0x0000,0x0000,0x0000Format: OFFSET, BITMASK, PATTERN, ENABLE.
Note: OFFSET value is the actual 16-bit offset in the packet, so is totally dependent on Frame Type (Ethernet, 802.1Q or 802.1ad frame).
Example: If the frame field of interest is the Ethernet Type, the offset is:
- 6 if the frame is an Ethernet Frame.
- 8 if the frame is an 802.1Q Frame.
- 10 if the frame is an 802.1ad Frame.
Remember that OFFSET is 16-bit unit value (half of the typical byte unit value).		 N/A
PACKETCLASSIFIER.GENERAL.RULES_ORDER[20]Rules Order:
CUSTOM
CUSTOM_VLAN
CUSTOM_DSCP
CUSTOM_VLAN_DSCP
CUSTOM_DSCP_VLAN
20xCHAR *** *   VLANN/A CUSTOM,CUSTOM_VLAN,CUSTOM_DSCP,CUSTOM_VLAN_DSCP,CUSTOM_DSCP_VLAN
PACKETCLASSIFIER.GENERAL.TCPACKV4_CLASS_MAPMapping TCP ACK (IPv4) to a Class Value.
1xINT8U *** *   0Class value 0-7
PACKETCLASSIFIER.GENERAL.TCPACKV4_CLASS_MAP_ENEnable/disable TcpAckV4/Class mapping.1xBOOL *** *   NON/A N/A
PACKETCLASSIFIER.GENERAL.TCPACKV6_CLASS_MAPMapping TCP ACK (IPv6) to a Class Value.
1xINT8U *** *   0Class value 0-7
PACKETCLASSIFIER.GENERAL.TCPACKV6_CLASS_MAP_ENEnable/disable TcpAckV6/Class mapping.1xBOOL *** *   NON/A N/A
PACKETCLASSIFIER.GENERAL.TYPE_CLASS_MAP[8]Mapping of each configured Type Rule to a Class Value.
PACKETCLASSIFIER.GENERAL.TYPE_CLASS_MAP_EN must be disabled to be able to modify this parameter.		8xINT8U *** *   0,1,2,3,4,5,6,7Class value 0-7
PACKETCLASSIFIER.GENERAL.TYPE_CLASS_MAP_ENEnable/disable Type/Class mapping.1xBOOL *** *   YESN/A N/A
PACKETCLASSIFIER.GENERAL.VLAN_CLASS_MAP[8]Mapping of each LAN priority value to a Class Value.
PACKETCLASSIFIER.GENERAL.VLAN_CLASS_MAP_EN must be disabled to be able to modify this parameter.		8xINT8U *** *   0,1,2,3,4,5,6,7Class value 0-7
PACKETCLASSIFIER.GENERAL.VLAN_CLASS_MAP_ENEnable/disable Vlan/Class mapping.1xBOOL *** *   NON/A N/A
PHYMNG.DOMAIN.DEREG_CAUSE[50]Domain deregistration cause. Variable is associated to PHYMNG_DOMAIN_DEREG_FAILED_REREGS.
Possible causes are:
- Max domain reregistr. attempts reached.
- Node resigned.		50xCHAR **       N/A N/A
PHYMNG.DOMAIN.DEREG_DEV_IDDevice Id of the node when the domain deregistration occurred.1xINT8U **      0N/A N/A
PHYMNG.DOMAIN.DEREG_FAILED_REREGSNumber of failed reregistrations on a domain.1xINT32U **      0N/A N/A
PHYMNG.DOMAIN.DEREG_MAC_TIME[15]MAC time on which a given node deregisters from the domain.
MAC time is represented by a MAC cycle and a MAC clock inside a MAC cycle.		15xCHAR **       MAC clock: 20 ns for Powerline grids working at 50 Hz
MAC clock: 16 ns for Powerline grids working at 60 Hz		 MAC cycle: 0-65535
MAC clock: 0-4000000 for Powerline grids working at 50 Hz
MAC clock: 0-3333333 for Powerline grids working at 60 Hz
PHYMNG.DOMAIN.LINKDOWN_CAUSE[50]Last cause for which a given node link has been removed.
Possible causes are:
- Node resignation
- Reregistration failure
- Forced reregistration failure
- Not included in Access list
- Resignation event from external component
- Lost ACKs
- No available resources
- Negotiation error
- Node resignation
- Node removed by tool
- AAT mismatch
- Indirect resignation 		50xCHAR **       N/A N/A
PHYMNG.DOMAIN.LINKDOWN_DEV_IDDevice Id of the node which link has been removed.1xINT8U **      0N/A N/A
PHYMNG.DOMAIN.LINKDOWN_MAC_ADDRMAC Address of the node which link has been removed.1xMAC_ADDR **      00:00:00:00:00:00N/A N/A
PHYMNG.DOMAIN.LINKDOWN_MAC_TIME[15]MAC time on which a given node link has been removed.
MAC time is represented by a MAC cycle and a MAC clock inside a MAC cycle.		15xCHAR **       MAC clock: 20 ns for Powerline grids working at 50 Hz
MAC clock: 16 ns for Powerline grids working at 60 Hz		 MAC cycle: 0-65535
MAC clock: 0-4000000 for Powerline grids working at 50 Hz
MAC clock: 0-3333333 for Powerline grids working at 60 Hz
PHYMNG.DOMAIN.RESETReset of all PLC Manager Domain subgroup variables.1xBOOL **      YESN/A N/A
PHYMNG.DOMAININFO.MAC_CYCLE_DURATIONMAC cycle duration, as specified in clause 8.4 of [ITU-T G.9961].
In case of powerline, the read value shall be 0, which is a special value indicating that the MAC cycle is synchronized with 2 AC cycles as defined in clause 8.6.3.1 of [ITU-T G.9961].		1xINT32U *       0units of 0.5 ms 10-200
PHYMNG.DOMAININFO.MAX_BAND_PLANMaximum bandplan capability for a node that is allowed to register to the Domain:
- 1: 25 MHz
- 2: 50 MHz
- 3: 100 MHz
- 4: 200 MHz		1xINT8U *       3N/A 1-4
PHYMNG.DOMAININFO.MIN_BAND_PLANMinimal bandplan capability for a node that is allowed to register to the Domain:
- 1: 25 MHz
- 2: 50 MHz
- 3: 100 MHz
- 4: 200 MHz		1xINT8U *       1N/A 1-4
PHYMNG.DOMAININFO.TOPOLOGY_INTERVALRepresents the time interval that a node sends out the periodic topology update using TM_NodeTopologyChange.ind message, as specified in clause 8.8.5.8.1 of [ITU-T G.9961].1xINT8U **      0Units of 0.1s. Set to 0 to disable 0,1-255
PHYMNG.GENERAL.ACCESS_POLICYSelects the access policy to apply (only available in some products).
- 0: Inhome
- 1: G.now
- 2: P2MP
- 3: Reserved
- 4: Inhome point-to-point
- 5: G.pro Smart Grid
- 6: P2MPL
- 7: NExt		1xINT32U *** *   0N/A 0,1,2
PHYMNG.GENERAL.AFE_RXEQ_MODERx Equalizer mode: 0=OFF, 1=AUTO, 2=FORCED.1xINT32U *** *   0N/A N/A
PHYMNG.GENERAL.DET_MODEDetection mode. O Default Mode. 1 Detection range reduced1xINT8U *** *   0N/A 0,1
PHYMNG.GENERAL.MAC_CYCLE_DURATIONMAC cycle duration considering downclocked mode, ZCD frequency and number of ZERO_CROSS signals detected.1xINT32U *       0ms N/A
PHYMNG.GENERAL.PHY_GPIO_SELGPIO number used to handle the Phy selection.1xINT32U *** *   255N/A N/A
PHYMNG.GENERAL.PHY_SELECTIONHandle Phy selection (G.hn or Eth) GPIO when present, 0 -> G.hn, 1 -> Eth.1xBOOL *** *   NON/A N/A
PHYMNG.GENERAL.RUNNING_PHYMODE_IDSpecifies the frequency mode used in the G.hn communication. Each frequency mode corresponds to a G.hn profile. If this value is configured by using DEK tools, then it will be also stored in flash.1xINT8U ***     9N/A 0-26
PHYMNG.GENERAL.RUNTIME_PHYMODE_IDSpecifies the frequency mode used in the G.hn communication. Value configured in this parameter will have the same effect than setting it in PHYMNG.GENERAL.RUNNING_PHYMODE_ID_DESC but without storing it in flash.1xINT8U **      9N/A 0-26
PHYMNG.GENERAL.TX_MAC_MODEThis parameter configures the MAC policy (tested in HN market):0 -> Tx Default mode, tx only if there are data packets queued1 -> TX Forced mode, if there are no data packets queued, then transmit Probe Frame2 -> Tx Silence mode, tx only management packets queued1xINT8U **      0N/A 0,1,2
PHYMNG.GENERAL.WIRE_LENGTHEstimated wire length (meters) from DM to EP.1xINT32U *       0N/A N/A
PHYMNG.GENERAL.ZCD_DETECTEDZero Cross signal detection indicator.1xBOOL *       NON/A N/A
PHYMNG.GENERAL.ZCD_INTERNALSet to YES to use Internal Zero Cross Detector (for example, analog 50 Hz connected to ASIC). Set to NO to use a square signal provided externally.1xBOOL *** *   NON/A N/A
PHYMNG.GENERAL.ZCD_NUMCYC_PER_MAPNumber of ZERO_CROSS signals detected within a MAP cycle. Default value is 2.If Zero Cross signal provided is 25 Hz, then set to 11xINT8U *** *   2N/A 1,2
PHYMNG.HGF.ACK_ENCODING_MODEBitmap to define the allowed ACK encoding usable:
- b0: Bitmap
- b1: Runlength
- b2: Group		1xINT8U **      0x07N/A 0-7
PHYMNG.HGF.BANDPLANSelect Bandplan to be used. It needs to be used with PHYMNG.HGF.MIMO_SUPPORT to have effect.1xINT8U **      0N/A 1 -> 25 Mhz, 2 -> 50 Mhz, 3 -> 100 Mhz
PHYMNG.HGF.CERTIF_MODE_ENABLEDThis parameter is set to YES when the modem is in certification mode.1xINT8U **      0N/A N/A
PHYMNG.HGF.MIMO_SUPPORTTRUE to indicate that the MIMO suppor is enabled. It needs to be used with PHYMNG.HGF.BANDPLAN to have effect.1xINT8U **      1N/A 0-1
PHYMNG.HGF.POWER_BOOST_ENABLEEnables or disables power boost functionality.1xINT8U **      1N/A 1 -> enable, 0 -> disable
PHYMNG.HGF.REGION_DURATION[3]This is actually used to select 1 region or several, based on the values of stime and etime. The did parameter is not used.3xINT8U **      0,0,0N/A Byte 0 -> Device ID The device ID.
Byte 1 -> stime Group Id associated to the BAT.
Byte 2 -> etime Guard Interval Id associated to the BAT.
PHYMNG.HGF.TX_FEC_BLOCK_SIZEFEC block size in data and broadcast (for LCMP parameter).1xINT8U **      1N/A - FEC size
- 0: 120 bytes
- 1: 540 bytes
PHYMNG.IOP.CONF_TABLE[52][11]IOP configuration modes table information. Columns (X) are parameters and rows (Y) the different configuration modes.572xINT32U *** *   1,1,1,1,1,1,1,1,1,0,0,0,0,0,1,1,1,0,0,0,0,0,1,1,1,1,1,1,1,1,1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,1,1,0,0,0,1,1,1,0,0,1,1,1,1,1,1,1,1,1,0,0,1,1,1,1,0,0,1,1,1,0,0,1,1,1,1,0,0,1,1,1,0,0,3,2,2,2,3,4,2,2,2,0,0,0,0,0,0,0,13,0,0,0,0,0,24576,24576,24576,30208,30208,30208,24576,14848,7936,0,0,18000,18000,18000,40000,40000,40000,18000,11000,5800,0,0,0,0,0,0,0,0,0,0,0,0,0,1,4,4,1,1,1,4,1,1,0,0,0,0,0,0,1,1,255,255,255,0,0,1,2,2,0,0,0,2,2,2,0,0,0,1,1,0,0,0,1,1,1,0,0,0,0,0,0,0,0,0,0,0,0,0,8,8,8,4,1,1,8,4,3,0,0,8,8,8,4,4,4,8,4,3,0,0,8,8,8,4,4,4,8,4,3,0,0,3584,3584,3584,10752,3584,3584,3584,2304,1664,0,0,3584,3584,3584,10752,3584,3584,3584,2304,1664,0,0,2,2,2,3,2,2,2,3,3,0,0,8,8,8,8,7,7,8,8,8,0,0,0,0,0,0,0,0,0,1,1,0,0,1,1,1,1,1,1,1,1,1,0,0,0,10,10,0,0,0,10,10,10,0,0,1,2,2,2,2,2,2,1,1,0,0,100000,0,0,100000,100000,100000,0,0,0,0,0,0,1,1,1,0,0,1,1,1,0,0,200000,0,0,0,200000,200000,0,0,0,0,0,1,1,1,0,0,0,1,1,1,0,0,1,1,1,0,0,0,1,1,1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,1,1,0,0,0,0,0,1,1,1,0,0,0,1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,3,3,0,0,0,3,10,10,0,0,1,1,1,0,0,0,1,0,0,0,0,0,1,1,1,1,1,0,1,1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0N/A N/A
PHYMNG.PSD.AMATEUR_RADIO_BANDS_MAPThis parameter represents a bitmap representing usage of international amateur bands (0 = masked, 1 = unmasked). The LSB represents the lowest band (1.8-2.0 MHz), the second LSB represents the second lowest band (3.5-4.0 MHz), and so on.
The maximum value for this parameter is 0x3FF.		1xINT32U *       0x00000000N/A 0-1023
PHYMNG.PSD.ENABLE_CONTINUOUS_TXEnables continuous tx of probes even when the device is completely isolatedand stores in flash to enable it at bootWARNING: Please note that this functionality is persistent and not disabled after a device reset.1xBOOL ***     NO1 = Enabled, 0 = Disabled 0,1
PHYMNG.PSD.MEAS_STARTNode enters in PSD measure mode, sending PROBEs continuously.1xEVENT **       N/A N/A
PHYMNG.PSD.NUM_SM_MASKED_BANDSThis parameter represents the number of entries in the PHYMNG.PSD.SM_MASKED_BANDS_INFO value.1xINT8U *       0N/A 0-32
PHYMNG.PSD.PROBE_LENGTHConfigures the PROBE length.1xINT8U **      64symbols (4)-(64)
PHYMNG.PSD.PROBE_TYPEConfigures the PROBE type.1xINT8U **      11 = PROBE_TYPE_1SS, 8 = PROBE_TYPE_2SS 1,8
PHYMNG.PSD.SM_MASKED_BANDS[32][2]List of masked bands to be applied to the G.hn interface.64xINT32U**       0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0N/A N/A
PHYMNG.PSD.SM_MASKED_BANDS_DESC[32]Description of PHYMNG.PSD.SM_MASKED_BANDS elements: StartSubCarrier, StopSubCarrier.32xCHAR *       StartSubCarrier, StopSubCarrierN/A N/A
PHYMNG.STATS.DETECTED_PREAMBLES[2]List of 2 items indicating detected preambles on PLC channel 0 and PLC channel 1 respectively.2xINT32U *       N/AN/A N/A
PHYMNG.STATS.DETECTED_PREAMBLES_DESC[59]Detected preambles on PLC channel 0. Detected preambles on PLC channel 1.59xCHAR *       N/AN/A N/A
PHYMNG.STATS.PHY_HEADERS[2]List of 2 elements indicating detected Valid and Invalid Phy Headers respectively.2xINT32U *       N/AN/A N/A
PHYMNG.STATS.PHY_HEADERS_DESC[39]"Valid Phy Headers, Invalid Phy Headers"39xCHAR *       N/AN/A N/A
POWERMASK.CALIBRATION.HIGHBAND_ATT_BIASThis is an extra attenuation to the high band carriers. Only applied when the transmitted mode is SISO 100 MHz. Normally set to 0.1xINT8U *** *   0Units in Signed 0.25 dB (-160)-0
POWERMASK.CALIBRATION.TX1_FREQS[33]Indicates the breakpoint's frequency of the Calibration Gains Array applied to transmission port 1 in PLC SISO and COAX modes.33xINT32U *** *   2010,3373,3500,4000,7000,7300,28000,30000,33950,33990,40000,60000,200000,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0kHz (33990)-(200000)
POWERMASK.CALIBRATION.TX1_GAINS[33]Indicates the breakpoint's gain of the Calibration Gains Array applied to transmission port 1.33xINT16S *** *   -12,-6,-6,-2,-1,0,0,0,4,0,0,3,15,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0Units in Signed 0.25 dB (-160)-80
POWERMASK.CALIBRATION.TX2_FREQS[33]Indicates the breakpoint's frequency of the Calibration Gains Array applied to transmission port 2 in PLC MIMO and PHONE modes.33xINT32U *** *   2010,3373,3500,4000,7000,7300,30000,50000,95507,200000,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0kHz (33990)-(200000)
POWERMASK.CALIBRATION.TX2_GAINS[33]Indicates the breakpoint's gain of the Calibration Gains Array applied to transmission port 2.33xINT16S *** *   -12,-6,-6,-2,-1,0,2,8,8,8,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0Units in Signed 0.25 dB (-160)-80
POWERMASK.CENELEC.NOTCHES_ENABLEIndicates if the Cenelec notches will be applied when the POWERMASK.GENERAL.NOTCHES_UPDATE was executed. Only for PLC1xBOOL *** *   NON/A N/A
POWERMASK.DYNAMIC.AIC_APPLIED[6]Indicates if AIC is applied to the notches for each of the dynamic profiles.6xBOOL**** *   YES,YES,YES,YES,YES,YESN/A YES|NO
POWERMASK.DYNAMIC.AUTOMATICIndicates if the POWERMASK.DYNAMIC is handled internally by the firmware, based on the clients installed (YES) or (NO)1xBOOL *** *   NON/A YES|NO
POWERMASK.DYNAMIC.CLIENT_NAME[6][20]Names of the clients reserving POWERMASK.DYNAMIC for application. The position matches with the ID Number and priority.120xCHAR**       NONEN/A N/A
POWERMASK.DYNAMIC.CLIENT_REQUEST[6]Each client reports if requesting applying the POWERMASK.DYNAMIC associated to its client. The position matches with the ID Number and priority and name6xBOOL *       NO,NO,NO,NO,NO,NON/A 1|0
POWERMASK.DYNAMIC.DISABLE_SYNC_BANDS[6][128]Indicates if synchronization bands between the breakpoint's frequency indicated in POWERMASK.DYNAMIC.FREQS shall be disabled or not.
It is convenient to disable synchronization bands when there is a signal with enough PSD inside the attenuated band (i.e. a PLC signal with same spectral density as our signal) and
the breakpoints are located in the lower frequencies (less than 30MHz)
NOTE: If synchronization band is disabled for a set of breakpoints it shall be disabled in both ports despite the set of breakpoints are configured only for one port.
WARNING: Removing synchronization bands for more than 20MHz can cause a severe performance degradation.
768xBOOL**** *   NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NON/A YES|NO
POWERMASK.DYNAMIC.FREQS[6][128]Indicates the breakpoint's frequency of the PSD Internal Descriptor. Array size = 128768xINT32U**** *   0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0kHz 0-200000KHz
POWERMASK.DYNAMIC.LAST_VALIDIndicates the latest PSD Dynamic index validated (this is also the index applied in case of reboot). 1xINT8U *** *   0N/A 1-6, any value out of this range assumes no dynamic powermask shall be used
POWERMASK.DYNAMIC.PM_PORTS[6][128]Indicates the port to apply the PSD Dynamic defined. In MIMO there are 2 Tx Ports and the PSD can be defined independently. Array size = 128768xINT8U**** *   0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0N/A 0 -> Both ports, 1 -> Port 1, 2 -> Port 2 (MIMO Only)
POWERMASK.DYNAMIC.PM_VALS[6][128]Indicates the breakpoint's Gains of the PSD Internal Descriptor. Array size = 128768xINT16S**** *   0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0Units in Signed 0.25 dBm/Hz 0 or negative values
POWERMASK.DYNAMIC.RUNNINGIndicates the PSD Dynamic index currently applied. When set the powermask is automatically applied dynamically (not losing G.hn connectivity)1xINT8U ***     0N/A 1-6, any value out of this range assumes no dynamic powermask shall be used
POWERMASK.GENERAL.50561_1_NDEPTH_ENWriting this parameter to YES increase the depth of the Notches to fulfill the UNE-EN 50561-1 normative. Refresh the modeID to apply the changes.1xBOOL *** *   NON/A N/A
POWERMASK.GENERAL.NOTCHES_UPDATEWriting this parameter with YES triggers the update of the power mask with all defined notched (user, vendor and regulation). All the other parameters related to the power mask do not take effect until this event is triggered.1xEVENT **       N/A N/A
POWERMASK.GENERAL.RAW_POWERMASK[150]RAW powermask configured in the modem. It is shown in rows of (150) values each one.150xINT8U**       0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00N/A N/A
POWERMASK.PSD.FREQS[33]Indicates the breakpoint's frequency of the PSD Internal Descriptor. Please fill this array as exactly as possible once calibrated the device. Otherwise the system cannot respond properly to Domain dBm/Hz requirements.33xINT32U *** *   0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0kHz N/A
POWERMASK.PSD.GAINS[33]Indicates the breakpoint's Gains of the PSD Internal Descriptor. Please fill this array as exactly as possible once calibrated the device. Otherwise the system cannot respond properly to Domain dBm/Hz requirements.33xINT16S *** *   0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0Units in Signed 0.25 dBm/Hz N/A
POWERMASK.REGULATION.NOTCHES[48][3]Each row defines a regulation notch configuration. If all the values are set to 0, the notch is disabled.144xINT32U**       All values set to 0N/A N/A
POWERMASK.REGULATION.NOTCHES_DESC[25]Description of the parameters defining a regulation notch. Corresponds to the column headers of parameter POWERMASK.REGULATION.NOTCHES.
- StartFreq: Frequency where the notch starts.
- StopFreq: Frequency where the notch ends.
- Depth: Depth of the notch.
25xCHAR *       StartFreq,StopFreq,DepthN/A N/A
POWERMASK.REGULATION.NOTCHES_ENABLEEnables the user-defined set of notches. This parameter can be changed in run time. The notch configuration is applied when the parameter POWERMASK.GENERAL.NOTCHES_UPDATE is written.1xBOOL *       NON/A N/A
POWERMASK.SHAPEDEF.FREQS[6][33]Indicates the breakpoint's frequency of the PSD Internal Descriptor for specific mode. It will be applied to the mode specified in the corresponding index of SHAPEDEF_MODES.198xINT32U**** *   0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0kHz N/A
POWERMASK.SHAPEDEF.MODE[6]Indicates the transmission mode where the shape definition has to be applied. 6xINT8U *** *   0,0,0,0,0,0N/A N/A
POWERMASK.SHAPEDEF.PM_PORTS[6][33]Indicates the port to apply the PSD shape defined. In MIMO there are 2 Tx Ports and the PSD can be defined independently.198xINT8U**** *   0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0N/A 0 -> Both ports, 1 -> Port 1, 2 -> Port 2 (MIMO Only)
POWERMASK.SHAPEDEF.PM_VALS[6][33]Indicates the breakpoint's Gains of the PSD Internal Descriptor. It will be applied to the mode specified in the corresponding index of SHAPEDEF_MODES.198xINT16S**** *   0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0Units in Signed 0.25 dBm/Hz N/A
POWERMASK.USER.NOTCHES[10][3]Each row defines a user-specific notch. When all values are set to 0 the notch is disabled. This parameter can be changed in run time.30xINT32U**** *   All values set to 0N/A N/A
POWERMASK.USER.NOTCHES_DESC[25]Description of the parameters defining a user notch. Corresponds to the column headers of parameter POWERMASK.USER.NOTCHES.
- StartFreq: Frequency where the notch starts.
- StopFreq: Frequency where the notch ends.
- Depth: Depth of the notch.
25xCHAR *       StartFreq,StopFreq,Depth- StartFreq: From (0) to (300000) Hz
- StopFreq: From (0) to (300000) Hz
- Depth: Each unit means 0.5 dB. From 0 to 80. Set to 200 to disable transmission in this notch
If the three values are set to 0, then this notch is not configured.		 N/A
POWERMASK.USER.NOTCHES_ENABLEIndicates if the user notches will be applied when the POWERMASK.GENERAL.NOTCHES_UPDATE was executed.1xBOOL *** *   NON/A N/A
POWERMASK.VENDOR.NOTCHES[40][3]Each row defines a vendor-specific notch. When all values are set to 0 the notch is disabled. This parameter cannot be changed in run time, only using PCK or SDK.120xINT32U**** * * All values set to 0N/A N/A
POWERMASK.VENDOR.NOTCHES_DESC[25]Description of the parameters defining a vendor notch. Corresponds to the column headers of parameter POWERMASK.VENDOR.NOTCHES.
- StartFreq: Frequency where the notch starts.
- StopFreq: Frequency where the notch ends.
- Depth: Depth of the notch.
25xCHAR *       StartFreq,StopFreq,Depth- StartFreq: From (0) to (300000) Hz
- StopFreq: From (0) to (300000) Hz
- Depth: Each unit means 0.5 dB. From 0 to 80. Set to 200 to disable transmission in this notch
If the three values are set to 0, then this notch is not configured.		 N/A
POWERMASK.VENDOR.NOTCHES_ENABLEEnables the vendor-defined set of notches. This parameter cannot be changed in run time, only using PCK or SDK.1xBOOL *** * * NON/A N/A
POWERSAVING.BUTTON.HOLD_TIMESpecifies the amount of time that the button must be pressed (before being released) to enter/exit the power saving state.1xINT8U *** *   10.1 seconds. 1-255
POWERSAVING.BUTTON.NUMBERButton number that is used to enter and exit 'deep' power saving mode. It is the index in the UI.BUTTON.GPIO_NUMBER where the button is defined.1xINT8U *** *   255Any valid Button number. Set to 255 to disable. 0-6,255
POWERSAVING.GENERAL.IDLE_TIMEThis is the time the node must be idle before entering the power saving mode.The idle time is computed when the condition specified in the parameter POWERSAVING.GENERAL.MODE is met.A node may not enter power saving mode automatically when it is Domain Master with more than 1 End Point.1xINT32U *** *   360seconds (6)-(86400)
POWERSAVING.GENERAL.MODEThis is the criterion used to consider the node in idle state:
- 0: Disabled.
- 1: Ethernet Link. The idle time is computed from the moment the Ethernet link goes down. Reactivation takes place when the link is up or the button is pressed.
- 2: Ethernet Activity. The idle time is computed from the moment the last Ethernet packet was transmitted or received. Reactivation takes place when a packet is received or the button is pressed.		1xINT8U *** *   1N/A 0,1,2
POWERSAVING.GENERAL.STATUSThis is the current operational state of the node:
- 0: Full-power mode (L0). It can transmit and receive network traffic at its maximum capacity.
- 1: Efficient-power mode (L1). It can transmit and receive network traffic at its maximum capacity.
- 2: Low-power mode (L2). It can transmit and receive network traffic at reduced capacity.
- 3: Idle mode (L3). It cannot transmit and receive network traffic, but may transmit and receive management traffic.
- 4: The node is down.
- 5: The node is turned on, but not ready to transmit and receive network traffic.
- 6: The node is in a fault/error condition.
- Other: Reserved by ITU-T.
Read ITU-T G.9962 for more info.		1xINT32U **    * 0N/A 0-6
POWERSAVING.GPIO.VALUE_DURING_POWERSAVINGConfiguration value in the GPIO register during power saving/standby state.
Every bit of the register corresponds to a GPIO number, where the LSB corresponds to GPIO 0 and the MSB corresponds to GPIO 31.
This is the configuration value that sets all the LEDs and other external devices to OFF state during power saving to reduce the power consumption. The only GPIO which is not affected by this parameter value is that one indicated by parameter POWERSAVING.GPIO.LED_BLINK. The LED controlled by this GPIO might be switched between ON and OFF states during power saving state.
When the modem detects the EXIT condition, the GPIO indicated by parameter POWERSAVING.GPIO.LED_EXIT (if configured) will be set and the rest of the GPIOs will keep the value indicated by parameter POWERSAVING.GPIO.VALUE_DURING_POWERSAVING until the modem exits the power saving state.
For those GPIOs which control LEDs, the LED behavior will depend on the reference design implementation. For the MaxLinear Reference Design, the default value of this parameter (0xFFFFFFFF) will switch OFF all LEDs. 		1xINT32U ***     0xFFFFFFFFN/A N/A
POWERSAVING.LED.BLINK_NUMBERSpecifies the LED number on which the standby LED is connected. This change will take effect immediately. It is the index in the UI.LED.GPIO_NUMBER where the button is defined.1xINT8U *** *   255LED number. If 255, the LED is not configured. 0-6,255
POWERSAVING.LED.BLINK_OFFSpecifies the amount of time in milliseconds that the standby LED is off.This parameter is combined with POWERSAVING.LED.BLINK_ON to define the blinking pattern during standby mode.1xINT32U *** *   4500ms N/A
POWERSAVING.LED.BLINK_ONSpecifies the amount of time in milliseconds that the standby LED is on.If the parameter POWERSAVING.LED.BLINK_OFF has a value different from 0, the standby LED blinks with the specified time ratio, otherwise it stays solid.1xINT32U *** *   500ms N/A
POWERSAVING.LED.EXIT_NUMBERSpecifies the LED number on which the LED indicating the exit of power saving state is connected.This LED is used to indicate the return to normal operation during the time the firmware takes to recover from suspended state.This change will take effect immediately. It is the index in the UI.LED.GPIO_NUMBER where the button is defined.1xINT8U *** *   255LED number. If 255, the LED is not configured. 0-6,255
PSDARBITER.DB.CLIENTS[2][35]Values of the params describing the Clients installed in the PSD Arbiter component70xCHAR *        N/A N/A
PSDARBITER.DB.CLIENTS_DESC[28]Name of each one of the params describing the clients installed in the PSD Arbiter component28xCHAR *        N/A N/A
PSDARBITER.DB.DATA_REQS[250][2]Lists the Data PSD changes requested to this tx. Y value means the data client idx, X value means node ID500xINT8U**       All values set to 0N/A N/A
PSDARBITER.DB.GLOBAL_REQS[2]Lists the Global PSD changes requested to this tx. Value 255 means no request recorded2xINT8U**       0,0N/A N/A
QOS.GENERAL.FIXED_SILENCE_MODEInserts some predefined silences in the MAC cycle to allow sharing of time between different DMs. Mainly for P2MP mode:
- 0: 100% of the cycle available. No silences inserted.

- 1: 50% of the cycle available. Section 1
- 2: 50% of the cycle available. Section 2

- 3: 33% of the cycle available. Section 1
- 4: 33% of the cycle available. Section 2
- 5: 33% of the cycle available. Section 3

- 6: 25% of the cycle available. Section 1
- 7: 25% of the cycle available. Section 2
- 8: 25% of the cycle available. Section 3
- 9: 25% of the cycle available. Section 4

1xINT32U ***     0N/A 0..9
QOS.HGF.PREDEF_MAPSelects a predefined MAP for certification purposes.
- 0: CBTXOP
- 1: STXOP
- 2: CFTXOP
- 3: NDIM test		1xINT8U **      255N/A 0-3
QOS.QUEUEMANAGEMENT.CBR_POLICY[15]Select CBR Policy (Policy to share CBR Pool between registered SoQs) EVENLY: CBR Pool is shared evenly between all ports BWLIMIT: Use Profile information to adjust memory per queue depending on bandwith limit value15xCHAR *** *   EVENLYString EVENLY,BWLIMIT
QOS.QUEUEMANAGEMENT.MAX_MEMORY_USEMax Percentage of the total Queue memory to be use as maximum in one queue1xINT32U *** *   100Percentage 0-100
QOS.QUEUEMANAGEMENT.SATURATION_POLICY[15]Select SATURATION Policy (Policy to share VBR Pool between registered SoQs) MAX_MEMORY_USE: Use a percentage of the VBR Pool BWLIMIT: Use Profile information to adjust VBR memory per queue depending on bandwith limit value 15xCHAR *** *   MAX_MEMORY_USEString MAX_MEMORY_USE,BWLIMIT
QOS.SCHED.DS_US_GUARDGuard time to be added when splitting MAC cycle in downstream/upstream slots (only valid when using G.now access policy).1xINT32U *** *   0MAC units (10 ns) N/A
QOS.SCHED.DS_US_MAX_TXOPMaximum allowed length for a single downstream/upstream slot (only valid when using G.now access policy).1xINT32U *** *   0microsecs (0)-(6000)
QOS.SCHED.DS_US_RATETime usage (in %) between downstream/upstream slots (only valid when using G.now access policy).1xINT32U *** *   80% (20)-(80)
QOS.SCHED.PROPAGATION_DELAYValue of delay added in the scheduling to mitigate the wire length effect (MAC units (10 ns)).1xINT32U *       0N/A N/A
QOS.SCHED.PROPAGATION_DELAY_ADJUSTAdjust MAC scheduling taking into account delay added by the length of the wire (G.now only).1xBOOL *** *   NON/A N/A
QOS.SCHED.TRAFFIC_AWARE_ENABLEEnable/Disable CPE traffic Aware in P2MP networks.1xBOOL *** *   NON/A N/A
QOS.SCHED.TRAFFIC_AWARE_IDLE_DELAYActive to idle delay.1xINT8U *** *   12MAC cycles (40ms) (6)-(250)
QOS.SCHED.TRAFFIC_AWARE_WAKEUPTIMEInterval (in miliseconds) to detect traffic in Tx Queues.
If configured value is 0, Tx Queues will be checked at the end of MAC Cycle.
1xINT8U *** *   0msecs N/A
QOS.SCHED.TRAFFIC_AWARE_XPUT_THRIdle to active threshold.1xINT32U *** *   1000Kilobits per second, but value is floored to steps of 250 kbps i.e. if 350 is configured, then 250 is considered (0)-(20000)
QOS.STATS.CHANNEL_INFO[10]Channel Adaptation info.10xINT32U *       N/AN/A N/A
QOS.STATS.CHANNEL_INFO_DESC[70]First Time, BLER Incr, SNR Decr, SNR Incr, Adapt End KO, Adapt End OK.70xCHAR *       N/AN/A N/A
QOS.STATS.DESC[113]Gets the column description for the QOS.STATS.INFO parameter.113xCHAR *       N/AN/A N/A
QOS.STATS.DEVID_TRAFF_CLASSDevice Id to monitor discarded traffic class queue.1xINT8U **      0N/A N/A
QOS.STATS.G9962[23]Throughput statistics information. All elements described in this section are free-running counters.
These counters are reset when Status transitions to 'Up' after the node is enabled by the NME.		23xINT64U *       N/AN/A N/A
QOS.STATS.G9962_DESC[295]QOS_STATS_G9962 elements description: BytesSent, BytesReceived, PacketsSent, PacketsReceived, ErrorsSent, ErrorsReceived, UnicastPacketsSent, UnicastPacketsReceived, DiscardPacketsSent, DiscardPacketsReceived, MulticastPacketsSent, MulticastPacketsReceived, BroadcastPacketsSent, BroadcastPacketsReceived, UnknownProtoPacketsReceived, MgmtBytesSent, MgmtBytesReceived, MgmtBytesPacketsSent, MgmtBytesPacketsReceived, BlocksSent, BlocksReceived, BlocksRsent, BlocksErrorReceived.295xCHAR *       N/AN/A N/A
QOS.STATS.INFO[5]QoS statistics: TIMER, msec, total number of Tx packets discarded, total number of packets Tx and list of DIDs for which the node is discarding Tx packets.
NOTE: The size of the parameter depends on the DIDs supported by the product, so the array size in the type column is not exact.		5xINT64U *       N/AN/A N/A
QOS.STATS.RESETResets all the statistic counters.1xBOOL **      YESN/A N/A
QOS.STATS.RX_LLC_ERRORS[2]Number of received erroneous LLCs. Counters are classified by error cause.2xINT32U *       N/AN/A N/A
QOS.STATS.RX_LLC_ERRORS_DESC[38]LLCs received with wrong CRC, LLCs received with wrong cipher MIC.38xCHAR *       N/AN/A N/A
QOS.STATS.TCLASS_DISC_TX_QS[5]Traffic class Tx queues discarding packets.5xINT8U**       N/AN/A N/A
QOS.STATS.TCLASS_DISC_TX_QS_DESC[179]For each remote node there is a PLC connection with, this parameter shows:
Device id of the remote node transmitting to, Tx queues discarding packets in prio (1,2), Tx queues discarding packets in prio (0,3), Tx queues discarding packets in prio (4,5), Tx queues discarding packets in prio (6,7)		179xCHAR *       N/AN/A N/A
QOS.STATS.TRAFF_CLASS_DISC[4]Traffic class discarded Tx packet counters for specified device id.4xINT8U *       N/AN/A N/A
QOS.STATS.TRAFF_CLASS_DISC_DESC[144]Discarded Tx packets in prio (1,2), Discarded Tx packets in prio (0,3),Discarded Tx packets in prio (4,5), Discarded Tx packets in prio (6,7)144xCHAR *       N/AN/A N/A
QOSENGINE.ALB.CBTXOP_SLOTS_DURATIONDuration of CBTXOP Slots in MAC Units (10ns)
1xINT32U *** *   10000N/A N/A
QOSENGINE.ALB.CBTXOP_SLOTS_MODECBTXOP Slots Mode:
0: ALB CBTXOP can be used for both Repeaters and EPs
1: ALB CBTXOP can be used only for Repeaters or EPs
1xINT8U *** *   0N/A 0-1
QOSENGINE.ALB.CBTXOP_SLOTS_NUMNumber of ALB CBTXOP per cycle.
1xINT8U *** *   0N/A N/A
QOSENGINE.ALB.ENABLEDEnable Adaptative Load Balancing.
Objective of this feature is improve the efficiency assigning channel time to nodes with traffic.
1xBOOL *** *   NON/A N/A
QOSENGINE.ALB.IDLE_STATENode is in IDLE state or not1xBOOL **      NON/A N/A
QOSENGINE.ALB.MODE[20]Configure ALB Mode:
FAST_WAKEUP: EPs can not enter in Power Saving during IDLE State.
POWER_OPTIMIZATION: EPs can enter Power Saving during IDLE State.
POWER_OPTIMIZATION mode is not still available.
20xCHAR *** *   POWER_OPTIMIZATIONN/A N/A
QOSENGINE.HTDMA.STABILITY_TIMETopology Stability is reached after QOSENGINE.HTDMA.STABILITY_TIME seconds
without any topology change.
1xINT32U *** *   10seconds N/A
QOSENGINE.MACFAIRNESS.ACTIVEIndicates if MAC Fairness mechanism is active1xBOOL *       NON/A YES/NO
QOSENGINE.MACFAIRNESS.CFTXOP_MIN_TIMEMinimum time granted for Data transmissions when MAC Fairness is active1xINT32U *** *   100000010 ns 100000 - 4000000
QOSENGINE.MACFAIRNESS.ENABLEEnables/Disables MAC Fairness mechanism for Spirit NExt networks.1xBOOL *** *   NON/A YES/NO
QOSENGINE.MACFAIRNESS.EXTRA_TIMEExtra time added to the time reserved for Data transmissions in NExt networks
when MAC Fairness is enabled. 		1xINT8U *** *   1In quantas of the time needed to reach the deepest node in the network.
Quanta depends on network topology and is calculated as
QOSENGINE.MACFRAMING.BTXGL * QOSENGINE.MACFRAMING.MAX_TS_LENGTH * N_HOPS * 2		 1-255
QOSENGINE.MACFAIRNESS.MAP_A_SWEEP_ENABLEEnables/Disables MAP-A/RMAP-A Sweep mechanism for Spirit NExt networks.1xBOOL *** *   NON/A YES/NO
QOSENGINE.MACFAIRNESS.NOISE_EXTRA_TIMECurrent extra time added to the time reserved for Data transmissions in NExt networks
when MAC Fairness is enabled. This time will be added in case of the Domain Master
detects network impairments		1xINT8U *       0In quantas of the time needed to reach the deepest node in the network 1-255
QOSENGINE.MACFAIRNESS.NOISE_EXTRA_TIME_MAXMaximum extra time to be added to the time reserved for Data transmissions in NExt networks
when MAC Fairness is enabled. This time will be added in case of the Domain Master
detects network impairments		1xINT8U *** *   5In quantas of the time needed to reach the deepest node in the network.
Quanta depends on network topology and is calculated as
QOSENGINE.MACFRAMING.BTXGL * QOSENGINE.MACFRAMING.MAX_TS_LENGTH * N_HOPS * 2		 1-255
QOSENGINE.MACFAIRNESS.NOISE_PARAMS[5]Array contaning thresholds to customize the criteria to add Extra Time
[0] Number of frame losses. If the number of frame losses during monitoring period (100ms) is higher it will add a quanta of time. 0 means disabled [1] Number of ticks without frame loses to decrease a time quanta		5xINT8U *** *   1,20,0,0,0In quantas of the time needed to reach the deepest node in the network 1-255
QOSENGINE.MACFAIRNESS.SILENCE_SLOTTime not used by Spirit NExt network when MAC Fairness is active1xINT32U *       010 ns N/A
QOSENGINE.MACFRAMING.BTXGL_UNITGrant Length Granularity in BMSGs.
Value must be multiple of 2^TICKFACTOR because MAC can only work witha multiple value of 2^TICKFACTOR. In case it is not configured a multipleof 2^TICKFACTOR, value will be rounded up to be multiple.
TICKFACTOR is a time shift factor that shall be used to determine the resolutionof a TXOP TIME_UNIT (G.9961 (TABLE8-62)).
1xINT32U *** *   5000010ns Ticks 1-50000
QOSENGINE.MACFRAMING.MAX_TS_LENGTHMaximum TS Length Allowed by a single node in the network.
1xINT32U *** *   4BTXGL_UNITs 1-X X=(400000/BTXGL_UNITS)
QOSENGINE.MAPDSCHEDLIST.BOOTUP_MAPD_PER_CYCLENumber of MAPDs per MAC Cycle before topology stability.
Topology stability is defined as the time needed to setup the topology
formally as HTDMA_STABILITY_TIME seconds without topology changes.
1xINT8U *** *   1N/A 1-255
QOSENGINE.MAPDSCHEDLIST.BOOTUP_RN_RATIOFrequency ratio between MAPDs in EPs and RNs before topology stability.
Topology stability is defined as the time needed to setup the topology
formally as HTDMA_STABILITY_TIME seconds without topology changes.
For example:
Ratio is 1 if EP and RN have the same frequency.
Ratio is 2 if for every MAPD sent by EP node, RN nodes send 2 MAPDs.
1xINT8U *** *   1N/A 1-255
QOSENGINE.MAPDSCHEDLIST.NORMAL_MAPD_PER_CYCLENumber of MAPDs per MAC Cycle after topology stability.
Topology stability is defined as the time needed to setup the topology
formally as HTDMA_STABILITY_TIME seconds without topology changes.
1xINT8U *** *   1N/A 1-255
QOSENGINE.MAPDSCHEDLIST.NORMAL_RN_RATIOFrequency ratio between MAPDs in EPs and RNs after topology stability.
Topology stability is defined as the time needed to setup the topology
formally as HTDMA_STABILITY_TIME seconds without topology changes.
For example:
Ratio is 1 if EP and RN have the same frequency.
Ratio is 2 if for every MAPD sent by EP node, RN nodes send 2 MAPDs.
1xINT8U *** *   1N/A 1-255
QOSENGINE.TRAFFSHAP.USE_BWLIMITEnables/Disables the usage of bandwidth limitation when the CPE's Ethernet is 100FD
If bandwidth limitation is already enabled for the CPE, the limitation applied is theminimum value between 100Mbps and its configured limitation
Default value: YES
Remarks: This value shall take effect after reset
1xBOOL *** *   YESN/A N/A
QOSENGINE.USERPROFILEMAP.CPE_PROFILEProfile ID to use in the upstream link by a CPE.
This parameter DOES NOT need to be configured. Domain Master of the network detects the profile to used by any CPE in the network
and write the correct value of CPE_PROFILE in every node
1xINT8U **      1N/A N/A
QOSENGINE.USERPROFILEMAP.DEFAULT_PROFILEDefault Profile ID to assign to a new CPE when its MAC is not found in the QoS Engine MAC List.1xINT8U ***     1N/A N/A
QOSENGINE.USERPROFILEMAP.MAC[16]MAC in the QoS Engine MAC List.
QoS Engine MAC List is used to assign a profile to a user.
Profile information is defined in USERPRROFILES Subgroup
and propagated from the HE to the CPEs every time a new node is registered
16xMAC_ADDR****     00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00N/A N/A
QOSENGINE.USERPROFILEMAP.PROFILE_ID[16]Profile ID assigned to a MAC in the QoS Engine MAC list.
QoS Engine MAC List is used to assign a profile to a user.
Profile information is defined in USERPRROFILES Subgroup
and propagated from the HE to the CPEs every time a new node is registered
16xINT8U****     1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1N/A N/A
QOSENGINE.USERPROFILES.ALLOWED_SERVICE[16][4]List of Services Allowed.
Services not selected in this list will not be guaranteed by the QoS Engine
although that service is detected in a user traffic, qosengine will not do anything to guarantee the latency
Services are traffic that have the same characteristics of throughput and latency.
Service 1 : High Throughput / High Latency (Example: Data)
Service 2 : High Throughput / Mid Latency (Example: Prioritized Data)
Service 3 : Mid Throughput / Mid Latency (Example: Video)
Service 4 : Low Throughput / Low Latency (Example: Voip & Management)
64xBOOL****     YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YES,YESN/A N/A
QOSENGINE.USERPROFILES.BWLIMIT_DOWN_MAXRATE[16]Downstream Bandwidth limitation value.16xINT32U****     10,10,10,10,10,10,10,10,10,10,10,10,10,10,10,10Mbps 10-800
QOSENGINE.USERPROFILES.BWLIMIT_ENABLED[16]Enable/Disable Bandwidth limit in a profile.16xBOOL****     NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NON/A N/A
QOSENGINE.USERPROFILES.BWLIMIT_INCLUDE_SERVICES[16]Indicates the highest service which is included in the bandwidth limitation
4: All services are included in the bandwidth limitation
2: Only services 1 and 2 are included in the bandwidth limtation
Default value: 4
16xINT8U****     4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4N/A 1-4
QOSENGINE.USERPROFILES.BWLIMIT_UP_MAXRATE[16]Upstream Bandwidth limitation value.16xINT32U****     10,10,10,10,10,10,10,10,10,10,10,10,10,10,10,10Mbps 10-800
RTM.GENERAL.MODESet RTM (Routing and Topology Management) working mode. Mode with CPE Isolation is not available in all products.
- 0: Disable RTM (only for debug).
- 1: Normal RTM.
- 2: Normal RTM with CPE Isolation (not available in all the products).
- 3: Full Isolation (G.now).
- 4: Normal RTM with CPE Isolation but allowing data repeating between EPs through the DM.		1xINT32U *** *   1N/A 0,1,2,3,4
RTM.GENERAL.UNKNOWN_SUPPRESSIONEnables/Disables the UNKNOWN destination traffic suppression.
Warning: Do not change this in runtime and assure that MCAST.GENERAL.MCAST_FILTERING_ENABLE=NO to apply this configuration.		1xBOOL *** *   NON/A YES/NO
RTM.HGF.SEND_TOPO_CHANGE_REQSend TM_NodeTopologyChange.req message.1xINT8U **      0N/A Byte 0 -> EP device ID [7:0]
RTM.HGF.TOPOLOGY_MODESet RTM Topology Mode. Only 1 mode is currently supported so it is actually a dummy parameter with no effect.
- 0: CRTM Mode
1xINT8U **      0N/A 0
SNIFFER.HGF.LCMP_ENABLEDRead only. If TRUE, indicates that the sniffer is enabled for LCMP. Otherwise, ethernet UDP is used.1xBOOL *       NON/A N/A
SNIFFER.HGF.LOG_EXT_ID_ENABLEDIf TRUE, the extended ID information field will be added to the notifications.1xBOOL *** *   YESN/A N/A
SNIFFER.HGF.LOG_EXT_TIMING_ENABLEDIf TRUE, the extended timing information fields will be added to the notifications.1xBOOL *** *   NON/A N/A
SNIFFER.HGF.LOG_MASK[39]Used to enable/disable different types of messages with the sniffer. It modifies the SNIFFER_HGF_LOG_MASK_RX and SNIFFER_HGF_LOG_MASK_TX parameters. When read, it returns the latest received values. Check LCMP HGF documentation.39xINT8U **      0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00N/A N/A
SNIFFER.HGF.LOG_MASK_RX[39]Read Only. Used to check the current Rx Log mask of the sniffer. Check LCMP HGF documentation.39xINT8U ***     0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00N/A N/A
SNIFFER.HGF.LOG_MASK_TX[39]Read Only. Used to check the current Tx Log mask of the sniffer. Check LCMP HGF documentation.39xINT8U ***     0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00N/A N/A
SON.GENERAL.ALIVE_CHECK_ENABLEDEnable Alive node check functionality. Needed to detect when a node leaves the domain if re-registering is disabled.1xBOOL *** *   YESN/A N/A
SON.GENERAL.ALIVE_MAX_MAP_D_OPP_AGEMax time without receiving MAP-D slot transmission opportunity to force a re-registration.1xINT16U *** *   800MAC cycles N/A
SON.GENERAL.ALIVE_MAX_NO_DRC_AGEMax time without receiving periodic Domain Routing Change message to force a re-registration.1xINT16U *** *   768MAC cycles N/A
SON.GENERAL.ALIVE_PROXY_DELTA_OPPMax difference in MAP-D slot transmission oportunity received by my proxy respect the ones received by me to force a re-registration.1xINT8U *** *   10N/A N/A
SON.GENERAL.ALIVE_SLAVE_MAX_AGEMaximum number of consecutive times that the node is not receiving a MAP-D from a node receiving the MAP-D transmission opportunity.
If the node whose MAP-D are not received is our proxy, this threshold forces us to leave the domain.
If the node whose MAP-D are not received is our direct slave, this threshold forces removing this node from the domain.		1xINT8U *** *   3N/A N/A
SON.GENERAL.ENABLEDEnable Topology Manager SON functionality.1xBOOL ***     YESN/A YES/NO
SON.GENERAL.FORCE_RELAY_MAC_ADDRIf set to zero indicates that the node shall choose its parent node based on topology criteria.
If set to a valid MAC address, the node tries to connect with the parent with this MAC address, if it is discovered.
If the target node is not present, the node will remain out of the network until the target node is available.		1xMAC_ADDR *** *   00:00:00:00:00:00MAC address MAC address
SON.GENERAL.METRICS_WEIGHTS_DESC[168]Description for each column of SON.SELECTION.METRICS_WEIGHTS and SON.TRACKING.METRICS_WEIGHTS parameters:
- Effective Downstream PHY weight
- Effective Upstream PHY weight
- Number of hops weight
- Number of direct nodes weight
- Reliability score weight
- Minimum last hop phy weight
- Registered node weight
- Relay weight
- Estimated attenuation weight
168xCHAR *       EFF. DS PHY, EFF. US PHY, NUM. HOPS, NUM. DIRECT NODES, RELIABILITY SCORE,MIN LAST HOP PHY, REGISTERED, RELAY WEIGHT, EST ATTENUATION,RES, RES, RES, RES, RES, RES, RESN/A N/A
SON.GENERAL.MIN_PHYMinimum estimated phy rate to enable a node as a parent candidate1xINT32U *** *   10000Kbps N/A
SON.GENERAL.PHY_EST_EXTRA_SNR_OFFSETExtra SNR offset to apply to PHY estimation. It is only taken into account when SON.GENERAL.PHY_EST_USING_CFR_BGN is set to YES.1xINT32S *** *   01/8 dBs units N/A
SON.GENERAL.PHY_EST_USING_CFR_BGNEnable PHY estimation using CFR and BGNOISE measures. If it is set to NO, PHY is estimated using attenuation measure.1xBOOL *** *   YESN/A N/A
SON.GENERAL.RELAY_LIST_ENABLEDEnable the relay list functionality: It allows to define a list of preferred and forbidden nodes to be used as parents.
The order of the preferred relay is important as the node will try to register to first available one. 		1xBOOL *** *   NON/A YES/NO
SON.GENERAL.RELAY_LIST_MAC[16]Define a list of relay MAC addresses that has precedence to be selected as the parent node.16xMAC_ADDR**** *   00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00,00:00:00:00:00:00N/A N/A
SON.GENERAL.RELAY_LIST_MAC_ALLOWED[16]Set to YES to allow the corresponding MAC address to be used as parent (preferred), set to NO otherwise (forbidden).16xBOOL**** *   NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NO,NOBOOLEAN YES/NO
SON.GENERAL.RELAY_WEIGHTAssigned weight for this device to be selected as a parent.
If nodes see multiple candidate parents, they will try to connect to the relay with the higher weight.		1xINT8U *** *   0N/A 0-3
SON.GENERAL.ROAMING_ENABLEDEnable roaming operations. This enables device to monitor other parents and steer to a better parent when discovered.1xBOOL *** *   YESN/A N/A
SON.INITIAL.MAX_EST_ATTMax estimated attenuation (in dBs) to consider a node as a valid parent.
During the initial phase, nodes will try to register to their first valid parent.		1xINT8U *** *   70dBs N/A
SON.INITIAL.MAX_TIMEMax time to find parent candidates that fulfill the max attenuation condition set in MAX_EST_ATT parameter.
After this time, the node will try to connect to the first available candidate.
MAC cycle duration is defined in PHYMNG.GENERAL.MAC_CYCLE_DUR.		1xINT16U *** *   188MAC cycles N/A
SON.SELECTION.CHECK_INTERVALTime to periodically evaluate the parent candidate table to find a better candidate during the best parent selection phase.
MAC cycle duration is defined in PHYMNG.GENERAL.MAC_CYCLE_DUR.		1xINT16U *** *   62MAC cycles N/A
SON.SELECTION.MAX_TIMEMax time in best parent selection phase.
MAC cycle duration is defined in PHYMNG.GENERAL.MAC_CYCLE_DUR.		1xINT16U *** *   938MAC cycles N/A
SON.SELECTION.METRICS_WEIGHTS[16]Weights applied to select the best parent during the selection phase.16xINT32S *** *   50,50,50,10,100,100000,10,50000,10,0,0,0,0,0,0,0N/A N/A
SON.STATUS.FSM_STT[30]Current FSM state30xCHAR *        N/A N/A
SON.STATUS.LAST_CHANGE_REASON[90]Reason of the last topology change.90xCHAR *        N/A N/A
SON.STATUS.ROLE[30]Node's role, 3 possible values DOMAIN_MASTER, RELAY or END_POINT30xCHAR *        N/A N/A
SON.STATUS.TIME_SINCE_LAST_CHANGEElapsed time since the last topology change.
Each node calculates its own elapsed time based on local changes.
Only Domain Master node is able to calculate the elapsed time since the last topology change in the entire network.		1xINT32U *       0seconds N/A
SON.TRACKING.CHECK_INTERVALTime to periodically evaluate the parent candidate table to find a better candidate during the tracking phase.
MAC cycle duration is defined in PHYMNG.GENERAL.MAC_CYCLE_DUR.		1xINT16U *** *   188MAC cycles N/A
SON.TRACKING.METRICS_WEIGHTS[16]Weights applied to select the best parent during the tracking phase.16xINT32S *** *   50,50,25,0,100,100000,20,50000,0,0,0,0,0,0,0,0N/A N/A
SWITCHMGR.CVLAN.ALLOWED_TAGS_EOC[16]802.1Q VLAN tags allowed on the EoC interfaces.16xINT16U *** *   0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0N/A 1-4094
SWITCHMGR.CVLAN.ALLOWED_TAGS_GE[4][16]802.1Q VLAN tags allowed on each GE interface.64xINT16U *** *   0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0N/A 1-4094
SWITCHMGR.CVLAN.ALLOWED_VLANS[16]802.1Q VLANs allowed through the switch.16xINT16U *** *   1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0N/A 1-4094
SWITCHMGR.CVLAN.APPLYApply the 802.1Q VLAN settings to the running configuration.1xEVENT **       N/A N/A
SWITCHMGR.CVLAN.ENABLEDEnable 802.1Q VLANs.1xBOOL *** *   NON/A TRUE or FALSE
SWITCHMGR.CVLAN.INGRESS_SECURITY_EOC802.1Q VLAN ingress security mode of the EoC interfaces.1xINT8U *** *   3N/A 1 (Fallback), 2 (Check) or 3 (Secure)
SWITCHMGR.CVLAN.INGRESS_SECURITY_GE[4]802.1Q VLAN ingress security mode of each GE interface.4xINT8U *** *   3,3,3,3N/A 1 (Fallback), 2 (Check) or 3 (Secure)
SWITCHMGR.CVLAN.MODE_GE[4]802.1Q VLAN mode of each GE interface.4xINT8U *** *   0,0,0,0N/A 0 (Access) or 1 (Trunk)
SWITCHMGR.CVLAN.PVID_GE[4]Default 802.1Q VLAN id of each GE interface.4xINT16U *** *   1,1,1,1N/A 1-4094
SWITCHMGR.CVLAN.PVID_MGMT802.1Q VLAN id of the MGMT interface.1xINT16U *** *   1N/A 1-4094
SWITCHMGR.GENERAL.EOC_PORT_COUNTThe number of EoC ports on the device.1xINT8U *       0N/A 1 to 2
SWITCHMGR.GENERAL.GE_PORT_COUNTThe number of GbE RJ45 ports on the device.1xINT8U *       0N/A 0 to 4
SWITCHMGR.GENERAL.HW_REVISIONThe hardware revision of the Ethernet board.1xCHAR *        N/A C, D, E or F
SWITCHMGR.GENERAL.RESET_GPIO_NUMBERGPIO number connected to the switch reset line.1xINT32U *** *   255N/A N/A
SWITCHMGR.STATUS.GE_FULL_DUPLEX[4]Full duplex status of each GE interface.4xBOOL *       NO,NO,NO,NON/A TRUE or FALSE
SWITCHMGR.STATUS.GE_LINK[4]Link status of each GE interface.4xBOOL *       NO,NO,NO,NON/A TRUE or FALSE
SWITCHMGR.STATUS.GE_SPEED[4]Speed status of each GE interface.4xINT8U *       0,0,0,0N/A 0 (10 Mbps), 1 (100 Mbps), 2 (200 Mbps), 3 (1 Gbps), 4 (2.5 Gbps), 5 (5 Gbps), 6 (10 Gbps) or 7 (Unknown)
SWITCHMGR.UI.PASS_THROUGH_BUTTONButton number used to control whether the switch is passing frames between the left and right sides.1xINT32U *** *   255Button number (GPIO is configured in the UI component). Set to 255 to disable. 0-6,255
SWITCHMGR.UI.PASS_THROUGH_ENABLEDIndicates whether Ethernet pass-through is enabled.1xBOOL *       NON/A N/A
SWITCHMGR.UI.PASS_THROUGH_LEDLED number used to report if the switch is passing frames between the left and right sides.1xINT32U *** *   255LED number (GPIO is configured in the UI component). Set to 255 to disable. 0-6,255
SYNC.STATS.CLOCK_DEVIATION[500][2]Returns the clock deviation from the master clock.
See the description in the SYNC.STATS.CLOCK_DEVIATION_DESC.		1000xINT32S**       N/ASigned 32-bit integer in fixed point (32,16). N/A
SYNC.STATS.CLOCK_DEVIATION_DESC[45]Gets the column description for the SYNC.STATS.CLOCK_DEVIATION parameter.
Clock deviation samples:
- INSTANTANEOUS DEVIATION: Clock deviation measured in the last MAP received.
- PROCESSED DEVIATION: Clock deviation applied to correct the deviation from the master clock.
45xCHAR *       N/AN/A N/A
SYSLOG.GENERAL.ENABLEDisable ('NO') to ignore log messages produced by all components. It only takes effect *after* the next boot.1xBOOL *** *   YESN/A N/A
SYSLOG.GENERAL.OUTPUT_REDIRECTION[20]By default, all components log to the internal console device. To change this to something else (for example, make components send log messages to a remote UDP socket), set this parameter to the correct secret key (only available to developers) and then fill the SYSLOG_OUTPUT_* parameters to point to the desired target.20xCHAR *** *   ****N/A N/A
SYSLOG.OUTPUT.IPIP where log messages will be sent to when SYSLOG_OUTPUT_MODE is set to 'udp'. If this parameter is set to '0.0.0.0', then parameter SYSLOG_OUTPUT_IPV6 will be used instead.1xIP_ADDR *** *   0.0.0.0Decimal format: x.y.z.w. For example: 10.10.1.2 N/A
SYSLOG.OUTPUT.IPV6IPv6 where log messages will be sent to when SYSLOG_OUTPUT_MODE is set to 'udp' _and_ SYSLOF_OUTPUT_IP is set to '0.0.0.0'.
WARNING: This parameter has *not* been implemented yet! Do not use it!. 		1xIPV6_ADDR *** *   0000:0000:0000:0000:0000:0000:0000:0000Hexadecimal format: 16-byte numbers separated by colons (:). For example: f340:aa01:0000:0000:0000:20ab:10ea:0002. N/A
SYSLOG.OUTPUT.MODE[20]Specifies where to send log messages. In order for this parameter to take effect, SYSLOG_GENERAL_OUTPUT_REDIRECTION must have been set to the correct secret key.20xCHAR *** *   noneN/A 'none' (ignore log messages), 'console' (send log messages to the internal console device), 'udp' (send log messages to a given UDP ip:port address, -specified by SYSLOG_OUTPUT_IP, SYSLOG_OUTPUT_IPV6 and SYSLOG_OUTPUT_PORT-), 'uart' (send messages to a given UART port number -specified by SYSLOG_OUTPUT_UART_NUMBER-).
SYSLOG.OUTPUT.PORTUDP port where log messages will be sent to when SYSLOG_PUTPUT_MODE is set to 'udp'.1xINT16U *** *   20113N/A 0-65535
SYSLOG.OUTPUT.UART_NUMBERUART port number where log messages will be sent to when SYSLOG_OUTPUT_MODE is set to 'uart'.1xINT8U *** *   1N/A 0 or 1
SYSTEM.GENERAL.API_VERSION[100]This parameter encodes the short version number of the SDK used to compile the firmware.100xCHAR *        N/A N/A
SYSTEM.GENERAL.ASICThis parameter defines the part number of the G.hn baseband processor used in the modem. This value is hard-coded in the silicon.1xINT32U *       0N/A N/A
SYSTEM.GENERAL.ASIC_NAME[33]This parameter returns the commercial name for the ASIC based on the ASIC and ASIC_REV values.33xCHAR *        N/A N/A
SYSTEM.GENERAL.ASIC_REVThis parameter defines the silicon version of the G.hn baseband processor. This value is hard-coded in the silicon.1xINT32U *       0N/A N/A
SYSTEM.GENERAL.CHIPSET[20]This parameter defines the chipset used in the modem. This value is hard-coded in the silicon.20xCHAR *        N/A N/A
SYSTEM.GENERAL.DOMAIN_MASTER_CAPABLEThis parameter represents the capability of the node to support a domain master function:
- YES: Node can serve as Domain Master.
- NO: Capability not supported.		1xBOOL *       YESN/A N/A
SYSTEM.GENERAL.FLASH_SIZEThis parameter indicates the size of the flash.1xINT32U *       0bytes N/A
SYSTEM.GENERAL.FORCE_ETH_BOOTIt forces or not ethernet boot.1xBOOL **      YESN/A N/A
SYSTEM.GENERAL.FW_VERSION[100]String containing the version information regarding the image currently running. It is a concatenation of FW_ALIAS and a version ID number. This is probably the only parameter a regular user is interested in, and it is used by Web, TR069, etc. as the firmware version100xCHAR *        N/A N/A
SYSTEM.GENERAL.FW_VERSION_ALIAS[61]Name that receives the image product after it has been renamed on the PCK tool . This is usually done when customizing configlayer parameters for a particular market.61xCHAR *** *    N/A N/A
SYSTEM.GENERAL.FW_VERSION_CORE[61]Name of the product before it has been renamed on the PCK tool. This name is the one you need to know when debugging the firmware.61xCHAR *        N/A N/A
SYSTEM.GENERAL.GHN_STANDARD_VERSION[128]This parameter represents the standard version that the node supports. It is formatted as a comma separated list of tuples of two strings separated with a comma.The first element of each tuple represents an ITU-T G.hn Recommendation, while the second element of the tuple represents the amendment version of the indicated Recommendation that this node supports (Value 0 corresponds to the base Recommendation).
Example: G9960,0,G9961,1.		128xCHAR *        N/A N/A
SYSTEM.GENERAL.HW_RESETWriting this parameter causes the baseband processor to reboot. The nRESET line of the modem is not asserted, so the rest of chips are not reset. ,br>Reset delay is configurable in seconds. Use a maximum value of 255.
If calling this parameter from API, then MSB byte could be used to pass a reset cause previously installed in Watchdog component.Warning: Be aware that a small delay (like 0 seconds) could make the device reset before send the command acknowledge.		1xINT16U **      0seconds 0-255
SYSTEM.GENERAL.LAST_CHANGEThis parameter represents the accumulated time in seconds since the interface entered its current operational state.1xINT32U *       0seconds N/A
SYSTEM.GENERAL.MAX_NODESThis parameter gets the maximum number of peer nodes in the domain network supported by the inquired node. Only valid in runtime.1xINT8U *       0N/A N/A
SYSTEM.GENERAL.NUM_BOOTSThis parameter contains the number of times the modem has booted. Counting is enabled with parameter SYSTEM.MISC.NUM_BOOTS_ENABLED.1xINT8U *** * * 0N/A N/A
SYSTEM.GENERAL.NUM_BOOTS_ENABLEDIt enables or disables the count of the number of boots.1xBOOL *** *   NON/A N/A
SYSTEM.GENERAL.PASSWORD_CONFIG[21]Node configuration password string for access to Configuration Layer parameters. It is maintained for backward compatibility but final password hash is stored in SYSTEM.GENERAL.PASSWORD_CONFIG_HASH21xCHAR **      ****N/A N/A
SYSTEM.GENERAL.PASSWORD_CONFIG2[21]Node configuration second password string for access to Configuration Layer parameters. It is maintained for backward compatibility but final password hash is stored in SYSTEM.GENERAL.PASSWORD_CONFIG2_HASH.21xCHAR **      ****N/A N/A
SYSTEM.GENERAL.PASSWORD_CONFIG2_HASH[32]Node configuration second password hash for access to Configuration Layer parameters.32xINT8U *** *   ****N/A N/A
SYSTEM.GENERAL.PASSWORD_CONFIG_HASH[32]Node configuration password hash for access to Configuration Layer parameters.32xINT8U *** *   ****N/A N/A
SYSTEM.GENERAL.RESET_CAUSE[2000]This parameter contains the last reset cause.2000xCHAR *        N/A N/A
SYSTEM.GENERAL.SEC_CONTROLLER_CAPABLEThis parameter represents the capability of the node to support a security controller function:
- YES: Node can serve as a security controller.
- NO: Capability not supported.		1xBOOL *       NON/A N/A
SYSTEM.GENERAL.SEC_CONTROLLER_STATUSThis parameter indicates whether or not the node is the active security controller.1xBOOL *       NON/A N/A
SYSTEM.GENERAL.TAIFGThis parameter represents the TAIFG.1xINT32U *       0Each unit represents 1.28 us N/A
SYSTEM.GENERAL.UPTIME[40]This parameter contains the time elapsed since the last reset of the system.40xCHAR *       0 days, 0h 0m 0sdays, hours, minutes and seconds N/A
SYSTEM.PACKETS.GHN_CBR_MEMORYSystem pool of CBR memory. If the value is 0xFFFFFFFF GHN_TOTAL_MEMORY is configured.1xINT32U ***     4294967295Bytes 0-GHN_TOTAL_MEMORY
SYSTEM.PACKETS.GHN_TOTAL_MEMORYTotal Memory Available for Ghn Queues.1xINT32U *       0Bytes N/A
SYSTEM.PACKETS.GHN_VBR_MEMORYSystem pool of VBR Memory. If the value is 0xFFFFFFFF GHN_TOTAL_MEMORY is configured.1xINT32U ***     4294967295Bytes 0-GHN_TOTAL_MEMORY
SYSTEM.PACKETS.MAX_MGMT_VBR_MEMORYMaximum management VBR memory available at the system to be used for Queue Buffers (from TURIA on).1xINT32U ***     4294967295N/A N/A
SYSTEM.PACKETS.QUEUE_GRANULARITYQueue Size Granularity.
Warning : this parameter must not be modified in Flashless products		1xINT32U ***     4294967295Bytes 64,128,256
SYSTEM.PRODUCTION.CUSTOM_FIELD_1[32]This parameter contains a custom field for general purpose usage. This parameter is read only.32xINT8U *       0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0N/A N/A
SYSTEM.PRODUCTION.CUSTOM_FIELD_2[32]This parameter contains a custom field for general purpose usage. This parameter is read only.32xINT8U *       0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0N/A N/A
SYSTEM.PRODUCTION.CUSTOM_FIELD_3[32]This parameter contains a custom field for general purpose usage. This parameter is read only.32xINT8U *       0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0N/A N/A
SYSTEM.PRODUCTION.CUSTOM_FIELD_4[32]This parameter contains a custom field for general purpose usage. This parameter is read only.32xINT8U *       0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0N/A N/A
SYSTEM.PRODUCTION.DEVICE_DESCRIPTION[128]This parameter contains a long description of the modem device in text format. This parameter can only be changed using the PCK or the SDK.128xCHAR *        N/A N/A
SYSTEM.PRODUCTION.DEVICE_MANUFACTURER[64]This parameter contains the name of the device manufacturer. This parameter can only be changed using the PCK or the SDK.64xCHAR *        N/A N/A
SYSTEM.PRODUCTION.DEVICE_NAME[64]This parameter contains the name of the modem device in text format. This parameter can only be changed using the PCK or the SDK.64xCHAR *        N/A N/A
SYSTEM.PRODUCTION.HGF_PRODUCT_LOGO_VERThis parameter contains the version of the HGF Product Logo process the device complies with. It can only be modified via API or PCK tool.1xHGF_CERTIF_VERSION ***   *  HGF Id or VERSION.SUBVERSION N/A
SYSTEM.PRODUCTION.HGF_SILICON_CERT_VERThis parameter contains the version of the HGF Silicon Certification process the device complies with. It can only be modified via API or PCK tool.1xHGF_CERTIF_VERSION ***   *  HGF Id or VERSION.SUBVERSION N/A
SYSTEM.PRODUCTION.HW_PRODUCTThis parameter is an enumerated type that encodes the model number of the modem.1xHW_PROD *        N/A N/A
SYSTEM.PRODUCTION.HW_REVISIONThis parameter encodes the revision number of the product hardware.1xHW_REVISION *        N/A N/A
SYSTEM.PRODUCTION.MAC_ADDRThis parameter encodes the MAC address of the modem. The MAC address can only be changed during manufacturing using the tools of the PTK. Even if this parameter is writable, it can be only modified using the PTK.1xMAC_ADDR **      00:00:00:00:00:00N/A N/A
SYSTEM.PRODUCTION.MAC_ADDR2This parameter encodes a second MAC address for the modem, it is intended for components or interfaces that require a different MAC than firmware.
The MAC address can only be changed during manufacturing using the tools of the PTK. Even if this parameter is writable, it can be only modified using the PTK
.If not needed, then set it to 0.		1xMAC_ADDR **      00:00:00:00:00:00N/A N/A
SYSTEM.PRODUCTION.MANUFACTURER_OUI[7]This parameter contains the Manufacturer OUI. It is a subset of the first 6 bytes of the MAC address.7xCHAR *        N/A N/A
SYSTEM.PRODUCTION.PRODUCT_CLASS[64]This parameter contains the name of the Product Class used by TR069. The Product Class can only be changed during manufacturing using the tools of the PTK. This parameter is read only.64xCHAR *        N/A N/A
SYSTEM.PRODUCTION.SECTOR0_UNLOCK_PASSWORD[10]This parameter contains the password for unlocking flash sector0 till next reset.10xCHAR **      ****N/A N/A
SYSTEM.PRODUCTION.SERIAL_NUMBER[64]This parameter encodes the Serial Number of the modem. The Serial Number can only be changed during manufacturing using the tools of the PTK. Even if this parameter is writable, it can be only modified using the PTK.64xCHAR **       N/A N/A
SYSTEM.STATS.CPU_USAGEThis parameter returns the current CPU usage.1xINT32U *       0Percentage N/A
SYSTEM.STATS.FREE_MEMORYThis parameter returns the free memory in kbytes.1xINT32U *       0kbytes N/A
SYSTEM.STATS.TOTAL_MEMORYThis parameter returns the total memory in kbytes.1xINT32U *       0kbytes 0-100
TCPIP.GENERAL.ALLOW_ETH_ACCESSIf set to YES, incoming TCPIP connections from ethernet ports will will accepted, otherwise they will be ignored.1xBOOL ***     YESN/A N/A
TCPIP.GENERAL.ALLOW_GHN_ACCESSIf set to YES, incoming TCPIP connections from G.hn ports will will accepted, otherwise they will be ignored.1xBOOL ***     YESN/A N/A
TCPIP.IPV4.ADDITIONAL_IP_ADDRESS[2]Array of additional fixed IPv4 addresses that will always be configured at boot time.2xIP_ADDR ***     0.0.0.0,0.0.0.0Decimal format: x.y.z.w
For example: 255.255.255.0		 N/A
TCPIP.IPV4.ADDITIONAL_IP_NETMASK[2]Array of IPv4 netmasks that applies to TCPIP.IPV4.ADDITIONAL_IP_ADDRESS.2xIP_ADDR ***     0.0.0.0,0.0.0.0Decimal format: x.y.z.w
For example: 255.255.255.0		 N/A
TCPIP.IPV4.GATEWAYIPv4 gateway to connect the node to other LAN segments.1xIP_ADDR ***     10.10.1.1Decimal format: x.y.z.w
For example: 10.10.1.11		 N/A
TCPIP.IPV4.IP_ADDRESSIPv4 address of the node.1xIP_ADDR ***     10.10.1.69Decimal format: x.y.z.w
For example: 10.10.1.2		 N/A
TCPIP.IPV4.IP_NETMASKIPv4 netmask of the node.1xIP_ADDR ***     255.255.255.0Decimal format: x.y.z.w
For example: 255.255.255.0		 N/A
TCPIP.IPV6.ADDITIONAL_IP_ADDRESS[4]Array of additional fixed IPv6 addresses that will always be configured at boot time.4xIPV6_ADDR ***     0000:0000:0000:0000:0000:0000:0000:0000,0000:0000:0000:0000:0000:0000:0000:0000,0000:0000:0000:0000:0000:0000:0000:0000,0000:0000:0000:0000:0000:0000:0000:0000Hexadecimal format: 16-byte numbers separated by colons (:)
For example: 0000:0000:0000:0000:0000:0000:0000:0000		 N/A
TCPIP.IPV6.ADDITIONAL_IP_PREFIX[4]Array of IPv6 prefixes that applies to 'ADDITIONAL_IP_ADDRESS'.4xINT8U ***     0,0,0,0Prefix lengths (in bits), separated by ',' 1-128
TCPIP.IPV6.ENABLEIf TRUE, then the IP stack will be launched with IPv4 and IPv6 support. If FALSE, then the IP stack will be launched only with IPv4 support'.
This parameter will take effect only after reset.		1xBOOL ***     YESN/A N/A
TCPIP.IPV6.GATEWAYIPv6 gateway to connect the node to other LAN segments.
NOTE: In IPv6 routes are automatically learnt. Only set this parameter under exceptional circumstances(for example, routers do not send 'router advertisement' packets) and, in that case, remember to ALWAYS use the link-local address of the router.		1xIPV6_ADDR ***     0000:0000:0000:0000:0000:0000:0000:0000Hexadecimal format: 16-byte numbers separated by colons (:)
For example: 0000:0000:0000:0000:0000:0000:0000:0000		 N/A
TCPIP.IPV6.IP_ADDRESSIPv6 address of the node.1xIPV6_ADDR ***     0000:0000:0000:0000:0000:0000:0000:0000Hexadecimal format: 16-byte numbers separated by colons (:)
For example: 0000:0000:0000:0000:0000:0000:0000:0000		 N/A
TCPIP.IPV6.IP_PREFIXIPv6 prefix that applies to 'DHCP_IP_ADDRESS'.1xINT8U ***     0Prefix lengths (in bits), separated by ',' 1-128
TCPIP.IPV6.LINK_LOCAL_IP_ADDRESSIPv6 link local address, automatically generated from the MAC address.1xIPV6_ADDR **    * 0000:0000:0000:0000:0000:0000:0000:0000Hexadecimal format: 16-byte numbers separated by colons (:)
For example: 0000:0000:0000:0000:0000:0000:0000:0000		 N/A
TCPIP.IPV6.LINK_LOCAL_IP_PREFIXIPv6 prefix that applies to 'LINK_LOCAL_IP_ADDRESS'.1xINT8U **    * 0Prefix lengths (in bits), separated by ',' 1-128
TCPIP.IPV6.SLAAC_IP_ADDRESSIPv6 address, automatically obtained by means of the SLAAC mechanism.1xIPV6_ADDR **    * 0000:0000:0000:0000:0000:0000:0000:0000Hexadecimal format: 16-byte numbers separated by colons (:)
For example: 0000:0000:0000:0000:0000:0000:0000:0000		 N/A
TCPIP.IPV6.SLAAC_IP_PREFIXIPv6 prefix that applies to 'DHCP_IP_ADDRESS'.1xINT8U **    * 0Prefix lengths (in bits), separated by ',' 1-128
TEMPSENSORS.GENERAL.MEASURETemperature Sensor Measure.1xINT32S *       01/100 Celsius Degrees N/A
TOPOLOGYMANAGER.STANDARD.CFR_DM_LOW_THRPower below which the DM is discarded as being a natural DM (G.now only).1xINT16S *** *   -45N/A N/A
TOPOLOGYMANAGER.STANDARD.CFR_DM_THRESHOLDPower over which the DM is very likely be a natural DM (G.now only).1xINT16S *** *   -20N/A N/A
TOPOLOGYMANAGER.STANDARD.CFR_HIGH_PASS_FREQFrequency (in kHz) of the high pass filter for the CFR analysis.1xINT32U *** *   0N/A N/A
TOPOLOGYMANAGER.STANDARD.CFR_MIN_DIFFDifference of power expected to get between a natural DM and a crosstalk DM (G.now only).1xINT16U *** *   10N/A N/A
TOPOLOGYMANAGER.STANDARD.CFR_STRICT_ANALYSISIf set to YES, all subbands of CFR analysis must be negatives, otherwise first one and at least one out of 2 last (G.now only).1xBOOL *** *   YESN/A N/A
TOPOLOGYMANAGER.STANDARD.DM_SEL_ANYWAYIf set to TRUE, forces an EP to select a DM although it doesn't fulfill all criteria (G.now only).1xBOOL *** *   NON/A N/A
TOPOLOGYMANAGER.STANDARD.DM_SEL_STATUSStatus of the DM selection.1xINT16U *       0N/A N/A
TOPOLOGYMANAGER.STANDARD.ENABLEDDescription for customers.
Description cont.		1xBOOL ***     YESUnits Range
TOPOLOGYMANAGER.STANDARD.FORCE_PROXY_MAC_ADDRMAC address of the node choosen to be my proxy1xMAC_ADDR *** *   00:00:00:00:00:00MAC address MAC address
TOPOLOGYMANAGER.STANDARD.ISOLATED_POWER_THRMax Power Threshold to select a free DOD to create a new cluster isolated from the existing ones.If there is any candidate above this threshold the new AM will join an existing cluster.If there is not any candidate with at least this threshold of received power, the AM will become DM to create a new cluster1xINT16U *** *   30DBs, where 0 is the equivalent of 80 DBs of attenuation N/A
TOPOLOGYMANAGER.STANDARD.MIN_POWER_THRESHOLDMin Power Threshold to select a node in the candidate list.Best candidate will be selected inside the group of candidates that fulfill this requirementIf no candidate fulfill this requirement , then candidate with best power is selected1xINT16U *** *   10DBs, where 0 is the equivalent of 80 DBs of attenuation N/A
TOPOLOGYMANAGER.STANDARD.PARAMS[10]Master selection parameters:
- SAME_HOP_POW_THR : Power diff between two candidates of the same hop level to move from a selected candidate to a new one. Both candidates are the same node type (RELAYS or END POINTS) (in dB units).
- SAME_HOP_NEW_RELAY_POW_THR : Power diff between two candidates of the same hop level to move from a selected candidate to a new one. Previously selected candidate is RELAY; the new one is END POINT (in dB units).
- NEXT_HOP_POW_THR : Power diff between two candidates of different hop levels to move from a selected candidate to a new one (in dB units).
- SAT_POW_THR : Power measures above this value will be saturated (in dB units).
- BEST_PARENT_TRACKING_ENABLE : Enables/Disables best parent tracking feature.
10xINT32S ***     8,10,20,50,1,0,0,0,0,0N/A N/A
TOPOLOGYMANAGER.STANDARD.PARAMS_DESC[300]Master selection parameters.
See the description in the TOPOLOGYMANAGER.STANDARD.PARAMS parameter for a detailed information about columns.		300xCHAR *       SAME_HOP_POW_THR,SAME_HOP_NEW_RELAY_POW_THR,NEXT_HOP_POW_THR,SAT_POW_THR,BEST_PARENT_TRACKING_ENABLE,RES1,RES2,RES3,RES4,RES5N/A N/A
TOPOLOGYMANAGER.STATS.CFR[3]Topology manager CFR statistics:
- slope 1 (2 -> 11 MHz),
- slope 2 (11 -> 20 MHz),
- slope 3 (20 -> 30 MHz).		3xINT32S *       N/AN/A N/A
TOPOLOGYMANAGER.STATS.CFR_DESC[49]Gets the column description for the TOPOLOGYMANAGER.STATS.CFR parameter.49xCHAR *       N/AN/A N/A
TOPOLOGYMANAGER.STATS.RESETSet any value to reset the statistics for Topology Manager.1xBOOL **      YESN/A N/A
TOPOLOGYMANAGER.STATS.VISIBILITY[13]Topology Manager Visibilities statistics:
- ADD_NODE: number of times a node has been added to topology manager visibility info
- REMOVE_NODE: number of times a node has been removed from topology manager visibility info
- NEG_FAILED: number of times connection requests negotiation failed
- MEAS_ADD_NODE: number of times a node has been added to topology manager visibility measurements list
- MEAS_REMOVE_NODE: number of times a node has been removed from topology manager visibility measurements list
- SET_NODE_DIRECT: number of times a node has been set as a node with direct visibility
- SET_NODE_INDIRECT: number of times a node has been set as a node with indirect visibility
- GOOD_LINK: number of times a node has been measured to have a good link with local node
- BAD_LINK: number of times a node has been measured to have a bad link with local node
- MEAS_REQ: number of times measurements to evaluate visibility was requested
- MEAS_OK: number of times visibility measurements were performed correctly
- MEAS_KO: number of times visibility measurements were NOT performed correctly
- MEAS_TIMEOUT: number of times visibility measurements timed out with no result
13xINT32S *       N/AN/A N/A
TOPOLOGYMANAGER.STATS.VISIBILITY_DESC[154]Gets the column description for the TOPOLOGYMANAGER.STATS.VISIBILITY parameter.154xCHAR *       N/AN/A N/A
TOPOLOGYMANAGER.VISIBILITY.CHECK_ENABLEEnable/Disable the visibility check for hidden nodes.1xBOOL ***     YESN/A N/A
TOPOLOGYMANAGER.VISIBILITY.INFO[1500]Last input information provided to the visibility schedule algorithm. Info valid only while DM.1500xCHAR *        N/A N/A
TOPOLOGYMANAGER.VISIBILITY.MAX_CONN_TRIESMaximum number of connection tries (each with 10 connection req) to consider a node without visibility.1xINT32U ***     3N/A 1-10
TOPOLOGYMANAGER.VISIBILITY.MEAS_NUM_CARR_THRNumber of carriers with SNR above the SNR threshold to consider a node has visibility.1xINT32U ***     500N/A 0-1500
TOPOLOGYMANAGER.VISIBILITY.MEAS_PERIOD_MSPeriodicity of the SNR measurement to evaluate node visibilities.1xINT32U **      10000ms >=100
TOPOLOGYMANAGER.VISIBILITY.MEAS_SNR_HYSTERWith of the hysteresis below SNR threshold to be used to prevent rapid changes in the detection of nodes with/without visibility.1xINT32U ***     4dB N/A
TOPOLOGYMANAGER.VISIBILITY.MEAS_SNR_THRSNR threshold to consider a node without visibility.1xINT32S ***     4dB N/A
TOPOLOGYMANAGER.VISIBILITY.MEAS_TIMEOUT_MSTimeout for a SNR measure for visibility to return a result.1xINT32U ***     100ms 10-1000
TOPOLOGYMANAGER.VISIBILITY.NUM_CARR_OVER_THR[1500]String with pairs , in last visibility measure1500xCHAR *        N/A N/A
TOPOLOGYMANAGER.VISIBILITY.PARTIAL_DETECTEDTRUE if partial visibilities were detected between nodes in the domain (DM) or if any node is detected as indirect (EPs)1xBOOL *       NON/A N/A
TOPOLOGYMANAGER.VISIBILITY.SOFT_DECISION_WEIGHTWeight to be applied in the soft decision. It indicates how many times the samples under the threshold are weighted more than the ones above it.1xINT32S ***     8N/A N/A
TXMODES.FCSHIFT.MODESelects the frequency shifting mode of the selected operation mode.
Following options are valid:
- 0: G.hn Baseband
- 1: 25MHZ_SHIFT: Operation mode central frequency is shifted 25 MHz- 2: 50MHZ_SHIFT: Operation mode central frequency is shifted 50 MHz- 3: 75MHZ_SHIFT: Operation mode central frequency is shifted 75 MHz- 4: 100MHZ_SHIFT: Operation mode central frequency is shifted 100 MHz		1xINT8U ***     0N/A N/A
TXMODES.GENERAL.30MHZ_STEP_DEPTH[38]Depth of the 30 MHz step. Maximum value is 80 (40 dB).
A setting above 40 dB will set the maximum depth for the whole 30 MHz step. 		38xINT32U****     52,24,24,52,24,52,24,24,0,12,12,52,52,52,24,24,18,0,12,52,52,24,18,12,0,12,52,12,12,24,52,52,52,52,52,0,0,0Units are codified in 0.5 dB steps. For example, 8 corresponds to 4 dB. N/A
TXMODES.GENERAL.AIC_GRADUAL_NOTCHESSet to YES to apply a ramp to the active carriers adjacent to AIC carriers.1xBOOL ***     YESN/A N/A
TXMODES.GENERAL.DEFAULT_DATA_PSDCDEFAULT_PSDC_VALUE valid only in PLC modes. Used for application data transmissions. Set to 31 if no PSD CEILING wants to be reported, it also enables the use of IQ mult and TX_GAIN CFL params to be modified via CFL. In Phone and Coax modes this value does not perform any action as CEILING is not currently used1xINT8U ***     52 dB per step, being 31 a non-PSDC value (means no information provided) 0-31
TXMODES.GENERAL.DEFAULT_PSDCDEFAULT_PSDC_VALUE valid only in PLC modes. Used for Management and MAPs transmissions. Set to 31 if no PSD CEILING wants to be reported, it also enables the use of IQ mult and TX_GAIN CFL params to be modified via CFL. In Phone and Coax modes this value does not perform any action as CEILING is not currently used1xINT8U ***     52 dB per step, being 31 a non-PSDC value (means no information provided) 0-31
TXMODES.GENERAL.MAX_BAND_PLANThis parameter represents the largest bandplan that the node can support:
- 1: 25 MHz bandplan.
- 2: 50 MHz bandplan.
- 3: 100 MHz bandplan.
- 4: 200 MHz bandplan.
- Other: Reserved by ITU-T.		1xINT32U **      3N/A 1-4
TXMODES.GENERAL.MEDIUM_TYPEThis parameter represents the medium type that the node currently operates on:
- 1: Power line baseband.
- 2: Phone line baseband.
- 4: Coax baseband.
- 8: Coax RF.
- 16: Plastic optical fiber.
- Other: Reserved by ITU-T.		1xINT8U *       0N/A 1,2,4,8,16
TXMODES.GENERAL.RUNNING_PSDC_VALLast PSD ceiling Value applies as Tx.1xINT8U *       02 dB per step, being 31 a non-PSDC value (means no information provided. 0-31
TXMODES.GENERAL.SNR_OFFSET[38]Shift SNR values measured per carrier.38xINT16S****     0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0Units are codified in 0.125 dB steps. For example, 8 corresponds to 1 dB. N/A
TXMODES.GENERAL.TX_IQ_MULTS[38][4]Multipliers factors applied in the Digital Tx.
It is a table with one entry for each mode, for a detailed information about the columns in one entry, see the TXMODE.GENERAL.TX_IQ_MULTS_DESC parameter.
MULT_[S]_[TX] - Multiplier applied to the stream [S] when directed to the Tx port [TX].
This parameter could disrupt the correct behaviour of the modem, so do not change it if it is not specifically required.
Default values depend on the product. 		152xINT8S****     6,-100,6,-100,2,-42,-42,2,2,-42,-42,2,4,-100,-40,-100,2,-42,-42,2,4,-100,-100,4,2,-42,-42,2,2,-42,-42,2,0,-100,-100,0,6,6,-100,6,-100,-19,-100,-100,6,-100,-100,6,-2,-100,-2,-100,6,-100,-100,6,2,-42,-42,2,4,-100,-100,4,6,-100,6,-100,0,-100,-100,0,6,6,-100,6,4,-100,-100,4,-2,-100,-2,-100,4,-100,-100,4,6,-100,6,-100,-100,-2,-100,-100,6,-100,6,-100,-11,-100,-18,-100,2,-42,-42,2,-11,-100,-18,-100,4,-100,-100,4,4,-100,-100,4,6,-100,-100,6,-2,-100,-2,-100,-2,-100,-2,-100,2,-42,-42,2,2,-42,-42,2,0,0,0,0,0,0,0,0,0,0,0,00.5 dB each unit. Set to (-100) to multiply by zero. (-100),(-60)-(24)
TXMODES.GENERAL.TX_IQ_MULTS_DESC[40]Column information of the TXMODE.GENERAL.TX_IQ_MULTS param.
The number of columns depends on the number of streams and the number of Tx ports.
It is generated in run-time.
40xCHAR *        N/A N/A
TXMODES.GENERAL.TX_TD_MULTS[38][2]Additional multipliers used in Tx to avoid saturations in the filtering.
They are attenuators of the value configured with the TX_IQ_MULTS in order to add more accuracy to the configuration.
It is a table with one entry for each mode. In each entry there is one TD_MULT value for each Tx port, first for Tx port 1 , second for Tx port 2 and so on.
This parameter could disrupt the correct behaviour of the modem, so do not change it if it is not specifically required.
Default values depend on the product. 		76xINT8U****     0x7F,0x68,0x5A,0x45,0x5A,0x45,0x7F,0x68,0x5A,0x45,0x58,0x00,0x5A,0x45,0x5A,0x45,0x80,0x80,0x80,0x7F,0x66,0x7F,0x7F,0x7F,0x80,0x80,0x7F,0x7F,0x5A,0x45,0x7F,0x7F,0x7F,0x68,0x80,0x80,0x80,0x7F,0x7F,0x7F,0x80,0x80,0x7F,0x7F,0x7F,0x68,0x66,0x7F,0x7E,0x7E,0x7B,0x61,0x5A,0x45,0x63,0x63,0x47,0x00,0x7F,0x7F,0x7F,0x7F,0x80,0x80,0x80,0x80,0x5A,0x45,0x5A,0x45,0x00,0x00,0x00,0x00,0x00,0x00Integer value that is translated to dBs = 20log10(TD_MULT/128). Set to 0 to disable transmission. 0-128
UART.DEV0.FLOW_CONTROLEnable/disable flow control signals (RTS/CTS) for UART 0 interface.1xBOOL *** *   NON/A N/A
UART.DEV0.PARITYConfigures UART 0 interface parity of the node.1xUART_PARITY *** *   noneparity mode none,odd,even
UART.DEV0.SIZEConfigures UART 0 interface size of the node.1xUART_SIZE *** *   bits8number of data bits bits5,bits6,bits7,bits8
UART.DEV0.SPEEDConfigures UART 0 interface speed of the node.1xUART_SPEED *** *   b4800baud rate: bits/second b150,b300,b600,b1200,b2400,b4800,b9600,b19k2,b38k4,b57k6,b115k2
UART.DEV0.STICKY_BITEnable/disable sticky bit for UART 0 interface. When it's enabled, parity bit is forced to:
- 0 (if parity is even).
- 1 (if parity is odd).
This parameter has no effect in case UART parity mode is configured to none.		1xBOOL *** *   YESN/A N/A
UART.DEV0.STOP_BITSConfigures UART 0 interface stop bits of the node.1xUART_STOPBITS *** *   stop1number of stop bits stop1,stop2
UART.DEV0.USE_FIFOEnable/disable use of FIFO for UART 0 interface.1xBOOL *** *   YESN/A N/A
UART.DEV1.FLOW_CONTROLEnable/disable flow control signals (RTS/CTS) for UART 1 interface.1xBOOL *** *   NON/A N/A
UART.DEV1.PARITYConfigures UART 1 interface parity of the node.1xUART_PARITY *** *   noneparity mode none,odd,even
UART.DEV1.SIZEConfigures UART 1 interface size of the node.1xUART_SIZE *** *   bits8number of data bits bits5,bits6,bits7,bits8
UART.DEV1.SPEEDConfigures UART 1 interface speed of the node.1xUART_SPEED *** *   b4800baud rate: bits/second b150,b300,b600,b1200,b2400,b4800,b9600,b19k2,b38k4,b57k6,b115k2
UART.DEV1.STICKY_BITEnable/disable sticky bit for UART 1 interface. When it's enabled, parity bit is forced to:
- 0 (if parity is even).
- 1 (if parity is odd).
This parameter has no effect in case UART parity mode is configured to none.		1xBOOL *** *   YESN/A N/A
UART.DEV1.STOP_BITSConfigures UART 1 interface stop bits of the node.1xUART_STOPBITS *** *   stop1number of stop bits stop1,stop2
UART.DEV1.USE_FIFOEnable/disable use of FIFO for UART 1 interface.1xBOOL *** *   YESN/A N/A
UI.BUTTON.GPIO_NUMBER[7]GPIO number assigned to each button. This assignment is used by other components. For example, if PAIRING.BUTTON.NUMBER is set to 0, the pairing button GPIO is configured in the position 0 of this array.
Set the value to 255 to disable the button.		7xINT8U *** *   255,255,255,255,255,255,255Any valid GPIO number. Set to 255 to disable this button. 0-255
UI.BUTTON.GPIO_PRESSED_VALUE[7]When the specified value is read from the GPIO, the UI component will consider that the button is being pressed.7xINT8U *** *   0,0,0,0,0,0,0N/A 0,1
UI.LED.GPIO_NUMBER[12]GPIO number assigned to each LED. This assignment is used by other components. For example, if CONNECTIVITYFB.POWER.LED_NUMBER is set to 2, the Power LED GPIO is configured in the position 2 of this array.
Set the value to 255 to disable the LED.		12xINT8U *** *   255,255,255,255,255,255,255,255,255,255,255,255Any valid GPIO number. Set to 255 to disable this LED. 0-255
UI.LED.GPIO_ON_VALUE[12]When telling the UI component to 'switch on' the LED, this is the value that will be written to the GPIO.12xINT8U *** *   0,0,0,0,0,0,0,0,0,0,0,0N/A 0,1
VLAN.CVLAN.ALLOWED_TAGS_IN_ETHA[16]Tags allowed on Ethernet A interface.16xINT16U ***     0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0N/A 0,2-4094
VLAN.CVLAN.ALLOWED_TAGS_IN_ETHB[16]Tags allowed on Ethernet B interface.16xINT16U ***     0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0N/A 0,2-4094
VLAN.CVLAN.ALLOWED_TAGS_IN_FW[16]Tags allowed on firmware interface.16xINT16U ***     0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0N/A 0,2-4094
VLAN.CVLAN.ALLOWED_TAGS_IN_SDIO[16]Tags allowed on SDIO interface.16xINT16U ***     0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0N/A 0,2-4094
VLAN.CVLAN.CONFIG_IF_ETHAPort Configuration for Ethernet A port (ACCESS, TRUNK, NONE).1xVLAN_CONFIG_IF ***     NONEN/A NONE,ACCESS,TRUNK
VLAN.CVLAN.CONFIG_IF_ETHBPort Configuration for Ethernet B port (ACCESS, TRUNK, NONE).1xVLAN_CONFIG_IF ***     NONEN/A NONE,ACCESS,TRUNK
VLAN.CVLAN.CONFIG_IF_MGMTPort Configuration for management port (ACCESS, TRUNK, NONE).1xVLAN_CONFIG_IF ***     NONEN/A NONE,ACCESS,TRUNK
VLAN.CVLAN.CONFIG_IF_SDIOPort Configuration for SDIO port (ACCESS, TRUNK, NONE).1xVLAN_CONFIG_IF ***     NONEN/A NONE,ACCESS,TRUNK
VLAN.CVLAN.ENABLETo activate/deactivate VLAN (IEEE 802.1Q) tagging/untagging traffic.1xBOOL ***     NON/A N/A
VLAN.CVLAN.FILTERING_ENABLETo enable/disable VLAN ingress and egress filtering.1xBOOL ***     NON/A N/A
VLAN.CVLAN.PVID_ETHAVLAN identifier for Ethernet A port (if it is set to 0 tagging is deactivated).1xINT16U ***     0N/A 0,2-4094
VLAN.CVLAN.PVID_ETHBVLAN identifier for Ethernet B port (if it is set to 0 tagging is deactivated).1xINT16U ***     0N/A 0,2-4094
VLAN.CVLAN.PVID_MGMTVLAN identifier for management port (if it is set to 0 tagging is deactivated).1xINT16U ***     0N/A 0,2-4094
VLAN.CVLAN.PVID_SDIOVLAN identifier for SDIO port (if it is set to 0 tagging is deactivated).1xINT16U ***     0N/A 0,2-4094
MaxLinear CONFIDENTIAL
MaxLinear documentation generated on Wed May 18 19:19:42 2022