Datasheet
71M6543F/71M6543G Data Sheet
102 v2
5.2 I/O RAM Map – Alphabetical Order
Table 70 lists I/O RAM bits and registers in alphabetical order.
Bits with a write direction (W in column Dir) are written by the MPU into configuration RAM. Typically, they are initially stored in flash memory and
copied to the configuration RAM by the MPU. Some of the more frequently programmed bits are mapped to the MPU SFR memory space. The
remaining bits are mapped to the address space 0x2XXX. Bits with R (read) direction can be read by the MPU. Columns labeled Rst and Wk
describe the bit values upon reset and wake, respectively. No entry in one of these columns means the bit is either read-only or is powered by the
NV supply and is not initialized. Write-only bits return zero when they are read.
Locations that are shaded in grey are non-volatile (i.e., battery-backed).
Table 70: I/O RAM Map – Alphabetical Order
Name Location
Rst
Wk
Dir Description
ADC_E
2704[4]
0
0
R/W
Enables ADC and VREF. When disabled, reduces bias current.
ADC_DIV
2200[5] 0 0 R/W
ADC_DIV controls the rate of the ADC and FIR clocks.
The ADC_DIV setting determines whether MCK is divided by 4 or 8:
0 = MCK/4
1 = MCK/8
The resulting ADC and FIR clock is as shown below.
PLL_FAST = 0
PLL_FAST = 1
MCK
6.291456 MHz
19.660800 MHz
ADC_DIV = 0
1.572864 MHz
4.9152 MHz
ADC_DIV = 1
0.786432 MHz
2.4576 MHz
BCURR
2704[3]
0
0
R/W
Connects a 100 µA load to the battery selected by TEMP_BSEL.
BSENSE[7:0]
2885[7:0] – – R
The result of the battery measurement.
See 2.5.7 71M6543 Battery Monitor on page 56.
CE_E
2106[0]
0
0
R/W
CE enable.
CE_LCTN[6:0]
2109[6:0]
31
31
R/W
CE program location. The starting address for the CE program is 1024*CE_LCTN.
(CE_LCTN[6:0], 2109[6:0] for 71M6543G)
(CE_LCTN[5:0], 2109[5:0] for 71M6543F)
CHIP_ID[15:8]
CHIP_ID[7:0]
2300[7:0]
2301[7:0]
0
0
0
0
R
R
These bytes contain the chip identification as shown below.
CHIP_ID[15:8]
CHIP_ID[7:0]
71M6543F
0x04
0x10
71M6543G
0x05
0x10
CHOP_E[1:0]
2106[3:2] 0 0 R/W
Chop enable for the reference bandgap circuit. The value of CHOP changes on the
rising edge of the internal MUXSYNC signal according to the value in CHOP_E[1:0]:
00 = toggle
1
01 = positive 10 = reversed 11 = toggle
1
except at the mux sync edge at the end of an accumulation interval.