Panasonic KX-TCD650RUC / KX-TCD650RUF Service Manual ▷ View online
1177..22.. IInnttrroodduuccttiioonn
1177 E
EE
EP
PR
RO
OM
M LLA
AY
YO
OU
UTT ((H
HA
AN
ND
DS
SE
ETT))
1177..11.. S
Sccooppee
The purpose of this section is to describe layout of the EEPROM (IC2) TCD120 handset.
The EEPROM contains hardware, software, and user specific parameters. Some parameters are set during production of the
handset e.g. crystal oscillator adjustment at 0000..01, some are set by the user when configuring the handset e.g. ringer volume
at 0F38, and some during normal use of the phone e.g. redial memory at 0311..0392.
The EEPROM contains hardware, software, and user specific parameters. Some parameters are set during production of the
handset e.g. crystal oscillator adjustment at 0000..01, some are set by the user when configuring the handset e.g. ringer volume
at 0F38, and some during normal use of the phone e.g. redial memory at 0311..0392.
The handset uses a 32k bit (4096 x 8) serial EEPROM (IC2) for storing volatile parameters. All parameters are set up before
the handset the factory. Some of these are vital for the operation of the hardware so a set of default parameters is programmed
before the actual hardware fine-tuning can be initiated. This document lists all default settings with a short description.
This document lists all default parameters with a short description.
In the tables below values in a range that are similar are not repeated; i.e. Address 00 to 01 contains the value 00 simply means
that the value 00 is repeated in all addressee in the range.
the handset the factory. Some of these are vital for the operation of the hardware so a set of default parameters is programmed
before the actual hardware fine-tuning can be initiated. This document lists all default settings with a short description.
This document lists all default parameters with a short description.
In the tables below values in a range that are similar are not repeated; i.e. Address 00 to 01 contains the value 00 simply means
that the value 00 is repeated in all addressee in the range.
T
Tyyppee
N
Naam
mee
D
Deessccrriippttiioonn
D
default
The EEPROM location is preset to the Default value by the eeprom default loader.
A
adjust
The EEPROM location is set during the production test and should not be overwritten. The value is set by
the eeprom default loader only if the location contains 0xFF, i, e. it has never been set.
-
EEPROM location which is not set at all.
1177..33.. E
EE
EP
PR
RO
OM
M ccoonntteennttss
1177..33..11.. G
Geenneerraall S
Seettuupp
A
Addddrreessss
D
Deeffaauulltt
N
Naam
mee
T
Tyyppee
D
Deessccrriippttiioonn
0000-0001
?? ??
EepromOscillator
A
Frequency adjustment .............
0002
20
ModulationDeviation
A
Mudulation adjustment
0003
00
InitialTestmode
D
Used when entering testmode
0004-000F
??..??
Reserved
-
Protocol data
0010
88
Pmb6720DRCON
D
DRCON register setting, see T67BMC-DECT-VxxD4-7600
0011
0C
Pmb6720CRUCON
D
CRUCON register setting, see T67BMC-DECT-VxxD4-
7600
0012
00
Pmb6720CRDEL
D
CRDEL register setting, see T67BMC-DECT-VxxD4-7600
0013
01
Pmb6720MCTRL1
D
MCTRL1 register setting, see T67BMC-DECT-VxxD4-
7600
0014
02
Pmb6720MCTRL2
D
MCTRL2 register setting, see T67BMC-DECT-VxxD4-
7600
0015
0C
Pmb6720CRRSTART
D
CRRSTART register setting, see T67BMC-DECT-VxxD4-
7600
0016
12
Pmb6720CRRES
D
CRRES register setting, see T67BMC-DECT-VxxD4-7600
0017
00
Pmb6720SYRI
D
Syri bit setting in OSCTRIMH, T672X-XV01D5-7600 data
0018
A0
Pmb6720SETTLE
D
SETTLE register setting, see T67BMC-DECT-VxxD4-7600
0019-001A
20 0C
Pmb6720SYNINI
D
SYNINI register setting, see T67BMC-DECT-VxxD4-7600
001B
4C
Pmb6720RFINV
D
RFINV register setting, see T67BMC-DECT-VxxD4-7600
001C
0B
Pmb6720PCTRL
D
PCTRL register setting, see T67BMC-DECT-VxxD4-7600
001D
09
Pmb6720VDAL
D
PCTRL register setting, see T67BMC-DECT-VxxD4-7600
001E-0020
F7 29 29
Pmb6720Mucon
D
MUCON register setting, see T67BMC-DECT-VxxD4-7600
0021
04
Pmb6720SYNCM_0_Normal
D
SYNCM(0) register setting, see T67BMC-DECT-VxxD4-
7600 during IRC and TBC
0022
0A
Pmb6720SYNCM_0_Rssi
D
SYNCM(0) register setting, see T67BMC-DECT-VxxD4-
7600 during Rssi measuraments
0023
04
Pmb6720SYNCM_0_Search
D
SYNCM(0) register setting, see T67BMC-DECT-VxxD4-
7600 during search for FP
0024
04
Pmb6720WOPNSF
D
WOPNSF register setting, see T67BMC-DECT-VxxD4-
7600
0025
E0
Pmb6720WWSF
D
WWSF register setting, see T67BMC-DECT-VxxD4-7600
0026-002F
?? .. ??
Reserved
D
Protocol data
0030-0034
00 .. 00
IPEI
A
IPEI
0035
??
Reserved
-
Protocol data
0036-003A
?? .. ??
PARK_1
-
PARK for registration 1
003B-003F
?? .. ??
PARK_2
-
PARK for registration 2
0040-0044
?? .. ??
PARK_3
-
PARK for registration 3
0045-0049
?? .. ??
PARK_4
-
PARK for registration 4
65
KX-TCD650RUC / KX-TCD650RUF
A
Addddrreessss
D
Deeffaauulltt
N
Naam
mee
T
Tyyppee
D
Deessccrriippttiioonn
004A
FF
PLI_1
D
Pli for registration 1. If set to FF the registration is
deleted.
004B
FF
PLI_2
D
Pli for registration 2. If set to FF the registration is
deleted.
004C
FF
PLI_3
D
Pli for registration 3. If set to FF the registration is
deleted.
004D
FF
PLI_4
D
Pli for registration 4. If set to FF the registration is
deleted.
004E
33
Powerparameters
D
The following bits control the power management
(BIT0 = LSB):
BIT0: Low duty cycle
BIT1: Stop CPU when idle
BIT2: Reduce CPU clock
BIT3: Disable DCDC
BIT4: Disable ADC
BIT5: Scan sleep
004F
??
Reserved
-
Protocol data
0050
2A
CoverageBeepLimit
D
Limit for coverage warning algorithm.
0051-00EF
?? .. ??
Reserved
-
Protocol data
00F0-00FF
--
ProductionData
-
ProductionData - This area is reserved for KME use.
0100-0104
?? .. ??
RFPI_1
-
RFPI for registration 1
0105
??
SerClass_1
-
Service class for registration 1
0106
??
LAL_1
-
Location area level for registration 1
0107
??
IPUI_LEN_1
-
IPUI length for registration 1
0108-0114
?? .. ??
IPUI_1
-
IPUI for registration 1
0115
??
ZAP_1
-
ZAP for registration 1
0116
??
STATUS_1
-
Status for registration 1
0117-0126
?? .. ??
UAK_1
-
UAK for registration 1
0127-012F
?? .. ??
Reserved
-
Protocol data
0130-0134
?? .. ??
RFPI_2
-
RFPI for registration 2
0135
??
SerClass_2
-
Service class for registration 2
0136
??
LAL_2
-
Location area level for registration 2
0137
??
IPUI_LEN_2
-
IPUI length for registration 2
0138-0144
?? .. ??
IPUI_2
-
IPUI for registration 2
0145
??
ZAP_2
-
ZAP for registration 2
0146
??
STATUS_2
-
Status for registration 2
0147-0156
?? .. ??
UAK_2
-
UAK for registration 2
0157-015F
?? .. ??
Reserved
-
Protocol data
0160-0164
?? .. ??
RFPI_3
-
RFPI for registration 3
0165
??
SerClass_3
-
Service class for registration 3
0166
??
LAL_3
-
Location area level for registration 3
0167
??
IPUI_LEN_3
-
IPUI length for registration 3
0168-0174
?? .. ??
IPUI_3
-
IPUI for registration 3
0175
??
ZAP_3
-
ZAP for registration 3
0176
??
STATUS_3
-
Status for registration 3
0177-0186
?? .. ??
UAK_3
-
UAK for registration 3
0187-018F
?? .. ??
Reserved
-
Protocol data
0190-0194
?? .. ??
RFPI_4
-
RFPI for registration 4
0195
??
SerClass_4
-
Service class for registration 4
0196
??
LAL_4
-
Location area level for registration 4
0197
??
IPUI_LEN_4
-
IPUI length for registration 4
0198-01A4
?? .. ??
IPUI_4
-
IPUI for registration 4
01A5
??
ZAP_4
-
ZAP for registration 4
01A6
??
STATUS_4
-
Status for registration 4
01A7-01B6
?? .. ??
UAK_4
-
UAK for registration 4
01B7-01FF
?? .. ??
Reserved
-
Protocol data
66
KX-TCD650RUC / KX-TCD650RUF
1177..33..22.. M
MM
MII ppaarraam
meetteerrss
A
Addddrreessss
D
Deeffaauulltt
N
Naam
mee
T
Tyyppee
D
Deessccrriippttiioonn
200 - 303
200 = 00
20D = 00
21A = 00
227 = 00
234 = 00
241 = 00
24E = 00
25B = 00
268 = 00
275 = 00
282 = 00
28F = 00
29C = 00
2A9 = 00
2B6 = 00
2C3 = 00
2D0 = 00
2DD = 00
2EA = 00
2F7 = 00
SpeedDial
D
The first byte in every entry is the length of the
speeddialnumber.
The next 12 bytes is the 24 digits. every digit is 4 bytes and
stored in BCD + some special characters.
200 - 20E - SpeedDialEntry 0
20D - 219 - SpeedDialEntry 1
21A - 226 - SpeedDialEntry 2
227 - 233 - SpeedDialEntry 3
234 - 240 - SpeedDialEntry 4
241 - 24C - SpeedDialEntry 5
24E - 25A - SpeedDialEntry 6
25B - 267 - SpeedDialEntry 7
268 - 274 - SpeedDialEntry 8
275 - 281 - SpeedDialEntry 9
282 - 28E - SpeedDialEntry 10
28F - 29B - SpeedDialEntry 11
29C - 2A8 - SpeedDialEntry 12
2A9 - 2B6 - SpeedDialEntry 13
2B6 - 2C2 - SpeedDialEntry 14
2C3 - 2EF - SpeedDialEntry 15
2D0 - 2DC - SpeedDialEntry 16
2DD - 2E9 - SpeedDialEntry 17
2EA - 2F6 - SpeedDialEntry 18
2F7 - 303 - SpeedDialEntry 19
304 - 310
304 = 00
DirectCallEntry
D
The first byte is the length of the speeddialnumber.
The next 12 bytes is the 24 digits. every digit is 4 bytes and
stored in BCD + some special characters.
311 - 392
--
Redial
D
RedialList containing max. 10 entries.
Allocation is controlled by RedialFAT (EepromInRam).
393 - 394
--
MMIGap
-
395 - 39D
FF
HotKey
D
index 0 - speeddialentry for key 0
index 1 - speeddialentry for key 1
-index 9 - speeddialentry for key 9
39E - 39F
--
HSPinCode
-
4 BCD Digits
3A0
00
EESubscriptionNumber
D
Selected subscription
3A1 - 3A8
00
EESubscriptionInfo
D
HandsetNumber And BaseType for all subscriptions.
3A9 - 3AA
FF FF
AlarmTime
D
4 BCD Digits Hours Tens,Units : Minutes Tens,Units
3AB
00
AlarmConfig
D
bit1 + bit2 - Settings for OFF, ONCE and DAILY
00 - OFF
01 - ONCE
10 - DAILY
3AC- 3AF
00
TotalHandsetCharge
D
holds the chargecostcount since last handset-reset or
callcost-reset(32bit).
3B0
00
Unused
-
3B1 - 3CF
--
MMIGap
-
3D0
00
RunTimeErrorLogConfig
D
00 = Show RunTimeErrorLog disabled.
3D1 - 3D2
0000
RunTimeErrorLogAddress
D
0000 = No error.
3D3 - AD5
--
MMIGap
-
1177..33..33.. A
Auuddiioo M
MM
MII
A
Addddrreessss
D
Deeffaauulltt
N
Naam
mee
T
Tyyppee
D
Deessccrriippttiioonn
AD6 - AFF
--
MelodyTable
-
Table telling start of each melody + end + 1 of last melody
(21 * 2 byte)
B00 - EFF
--
Melodies
-
Ringermelodies
Each melody are stored in the following format:
Byte0, high: 1 - follow cadence / 0 - finish melody
Byte0,low: Changing key data ( 0x0 ~ 0xF )
Byte1,high: Freq-offset for volume 1 ( 0x0 ~ 0xF )
Byte1,low: Freq-offset for volume 2 ( 0x0 ~ 0xF )
Byte2,high: Freq-offset for volume 3 ( 0x0 ~ 0xF )
Byte2,low: Freq-offset for volume 4 ( 0x0 ~ 0xF )
Byte3,high: Freq-offset for volume 5 ( 0x0 ~ 0xF )
Byte3,low: Freq-offset for volume 6 ( 0x0 ~ 0xF )
byte 4:Tempo
byte 5+: Melody
67
KX-TCD650RUC / KX-TCD650RUF
1177..33..44.. M
MM
MII B
Biittss
A
Addddrreessss
D
Deeffaauulltt
N
Naam
mee
T
Tyyppee
D
Deessccrriippttiioonn
F00
0B
EEToneConfig
D
bit 0 - Keytone on/off - 1/0
bit 1 - Call waiting on/off - 1/0
bit 2 - Range alarm on/off - 1/0
bit 3 - Battery low alarm on/off - 1/0
F01
06
UIConfig00
D
bit 0 - Direct call 1 = on /0 = off
bit 1 - StandbyDisplay00 00 = Off / 01 = Clock
bit 2 - StandbyDisplay01 10 = PpNo / 11 = FpNo
bit 3 - BatteryType 1 = Ni-Cd/0 = Ni-Mh
bit 4 - Call barring
bit 5 - Autio talk
bit 6 - TalkmodeDisplay00 00 = Talk time
bit 7 - TalkmodeDisplay01 01 = Talk cost 10=Phone
number
F02
00
CallCostEnabled
D
00 = CallCost Disabled
01 = CallCost Enabled
F03
--
UIGap01
-
1177..33..55.. B
Baatttteerryy ppaarraam
meetteerrss
A
Addddrreessss
D
Deeffaauulltt
N
Naam
mee
T
Tyyppee
D
Deessccrriippttiioonn
F04
4B
LowVoltage
D
Voltage on which to start battery low-indication.
The voltage has to be measured under this value for 8 secs
before the handset start signaling low battery.
LowVoltage[eeprom] = [ADC-steps] =
LowVoltage[mV] / (3.2 * 9.53[mV/step])
F05
48
NoVoltage
D
Voltage on which to turn off handset.
If the batteryvoltage gets below this level AND the handset
has been signaling low battery for at least 8 seconds the
handset will shut down.
NoVoltage[eeprom] = [ADC-steps] =
NoVoltage[mV] / (3.2 * 9.53[mV/step])
F06
6C
MaxVoltage
D
Max voltage allowed for battery. This is to prevent damage
on hardware if put in base with no batteries mounted. If the
batteryvoltage exceeds this level, the charging will be
stopped.
MaxVoltage[eeprom] = [ADC-steps] =
MaxVoltage[mV] / (3.2 * 9.53[mV/step])
F07
0A
StartCurrent
D
Current used at a cold start [mAh*2/100] ].
This value is subtracted every time the handset powers up.
StartCurrent[eeprom] = startcurrent[mAH]*50
F08
06
StbyCurrent
D
Current-compsumption when handset is in standby with
buzzer and backlight off.
StbyCurrent[eeprom] = consumption[mA]
F09
1C
UnlockCurrent
D
Current-compsumption when not locked to base with
buzzer and baclight off.
UnlockCurrent[eeprom] = consumption[mA]
F0A
47
MacCurrent
D
Current-compsumtion when handset is in conversation with
buzzer and backlight off.
MacCurrent[eeprom] = consumption[mA]
F0B
2E
BackLightCurrent
D
Current compsumtion when baclight is on. This is only the
consumption for one color. This value should not include
the consumption of the rest of the handset
BackLightCurrent[eeprom] = consumption[mA]
F0C
37
BuzzerCurrent
D
Current compsumtion when Buzzer is playing. This value
should not include any other consumptions than that of the
buzzer.
BuzzerCurrent[eeprom] = consumption[mA]
F0D
0A
LeakChargeCurrent
D
Leakcurrent when in charger.
LeakCurrent[eeprom] = IR51[mA]
When in charger, the charger will always supply the
handset with the current running through R51. This current
we have to take into consideration when charging.
F0E
78
FastChargeCurrent
D
Charge-current when in fast charge [mA].
The handset is in fastcharge-mode when BatteryCapacity is
less
than
´(ChargeTopLimit
/
100)
*
MaxCapacity´(BatteryCapacity < ChargeTopLimit% of
MaxCapacity)
F0F
64
TopChargeCurrent
D
Charge-current when in topoff charge [mA].
The
handset
charge
the
batteries
with
TopChargeCurrent[mA] when the BatetryCapacity is
between ´(ChargeTopLimit / 100) * Max(NiMH or
NiCd)Capacity´ and MaxCapacity(ChargeTopLimit% of
MaxCapacity < BatteryCapacity < MaxCapacity )
68
KX-TCD650RUC / KX-TCD650RUF
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