71M6541D Datasheet, PDF(53/166 Page) Maxim Integrated Products – 0.1% Accuracy Over 2000:1 Current Range Energy Meter ICs

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

71M6541D Datasheet, PDF (53/166 Pages) Maxim Integrated Products – 0.1% Accuracy Over 2000:1 Current Range Energy Meter ICs

◁

71M6541D/F/G and 71M6542F/G Data Sheet

4 â RTC_P + RTC_Q

floor

ï£¬ï£«

ï£

32768 â 8

1+ â â10â6

+ 0.5ï£·ï£¶

ï£¸

Conversely, the amount of ppm shift for a given value of 4RTC_P+RTC_Q is:

(í µí±í µí±í µí±)

ï¿½4

32768 â 8

í µí±í µí±í µí°¶í µí± + í µí±í µí±í µí°¶í µí±

1ï¿½

106

For example, for a shift of -988 ppm, 4âRTC_P + RTC_Q = 262403 = 0x40103. RTC_P = 0x10040, and

RTC_Q = 0x03. The default values of RTC_P and RTC_Q, corresponding to zero adjustment, are 0x10000

and 0x0, respectively.

Two settings for the TMUX2OUT test pin, PULSE_1S and PULSE_4S, are available for measuring and

calibrating the RTC clock frequency. These are waveforms of approximately 25% duty cycle with 1s or 4s

period.

Default values for RTCA_ADJ, RTC_P and RTC_Q should be nominal values, at the center of

the adjustment range. Un-calibrated extreme values (zero, for example) can cause incorrect

operation.

If the crystal temperature coefficient is known, the MPU can integrate temperature and correct the RTC

time as necessary. Alternatively, the characteristics can be loaded into an NV RAM and the OSC_COMP

bit (I/O RAM 0x28A0[5]) may be set. In this case, the oscillator is adjusted automatically, even in SLP

mode. See the Real Time RTC Temperature Compensation section for details.

2.5.4.4 RTC Temperature Compensation

The 71M6541D/F/G and 71M6542F/G can be configured to regularly measure die temperature, including

in SLP and LCD modes and while the MPU is halted. If enabled by the OSC_COMP bit, the temperature

information is automatically used to correct for the temperature variation of the crystal. A table look-up

method is used which generates the required digital compensation without involvement from the MPU.

Storage for the look-up table is in a dedicated 128 byte NV RAM.

Table 43 shows the I/O RAM registers involved in automatic RTC temperature compensation.

Table 43: I/O RAM Registers for RTC Temperature Compensation

Name

Location Rst Wk Dir Description

OSC_COMP

28A0[5] 0

R/W

Enables the automatic update of RTC_P and RTC_Q

every time the temperature is measured.

STEMP[10:3]

STEMP[2:0]

2881[7:0]

2882[7:5]

The result of the temperature measurement (10-bits of

magnitude data plus a sign bit).

The complete STEMP[10:0] value can be read and

shifted right in a single 16-bit read operation as shown

in the following code fragment.

volatile int16_t xdata STEMP _at_0x2881;

fa = (float)(STEMP/32);

LKPADDR[6:0] 2887[6:0] 0 0 R/W The address for reading and writing the RTC lookup RAM.

LKPAUTOI

Auto-increment flag. When set, LKPADDR[6:0] auto

2887[7] 0

R/W

increments every time LKP_RD or LKP_WR is pulsed.

The incremented address can be read at

LKPADDR[6:0].

LKPDAT[7:0] 2888[7:0] 0 0 R/W The data for reading and writing the RTC lookup RAM.

LKP_RD

LKP_WR

Strobe bits for the RTC lookup RAM read and write.

When set, the LKPADDR and LKPDAT registers are

2889[1] 0 0 R/W used in a read or write operation. When a strobe is

2889[0] 0 0 R/W set, it stays set until the operation completes, at which

time the strobe is cleared and LKPADDR is

incremented if LKPAUTOI is set.

▷