71M6515H_11 Datasheet, PDF(56/60 Page) Teridian Semiconductor Corporation – Up to 10ppmC precision ultra-stable voltage reference Digital temperature compensation

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71M6515H_11 Datasheet, PDF (56/60 Pages) Teridian Semiconductor Corporation – Up to 10ppmC precision ultra-stable voltage reference Digital temperature compensation

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A Maxim Integrated Products Brand

read

commands

from host

6515H not

ready

6515H data

71M6515H

Energy Meter IC

DATA SHEET

JULY 2011

read

commands

from host

6515H not

ready

6515H data

post-processor

active

330ms

1000ms

post-processor

active

330ms

2000ms

time

Figure 20: Timing Diagram (Host Polling)

Communication Steps for Interrupt Method:

The following is a list of commands required from the host processor to establish communication with the 71M6515H.

1) Establish host baud rate and data format as required by the 71M6515H.

2) Configure the DIO pins (D0â¦D7), if required, using the D_CONFIG register

3) Configure the 71M6515H by selecting the CE image (bits 23-22), equation (bits 7-5), pulse rate (bits 26-25), followed

by enabling the CE (bit 4 in the CONFIG register). The bit pattern sent to CONFIG should have all bits set to their

default state, as given in the Register Table.

4) Write the TEMP_RAW value obtained at calibration into the TEM_NOM register to enable temperature compensation.

5) Write the calibration coefficients into registers CAL_IA, CAL_VA, CAL_IB, CAL_VB, CAL_C, CAL_VC, PHADJ_A,

PHADJ_B, PHADJ_C. Write calibration values to the VFEED_A/B/C registers if the Rogowski image is used.

6) Configure WRATE with the value required to generate the desired pulse rate.

7) Establish creep, sag and over/under voltage/current thresholds, if necessary, by writing values to the

CREEP_THRSLD, SAG, VI_PTHRESH, and VI_THRSHLD registers.

8) Set the READY bit in the status mask STMASK in order to enable the generation of interrupts on the IRQZ pin.

9) Read at least one accumulated value register (WATTH_X, or VAH_X, or VARH_X).

10) Wait for the IRQZ pin to go low.

11) After receiving the interrupt, read at least one accumulated value register (WATTH_X, or VAH_X, or VARH_X) in order

to maintain interrupt generation. Read the bits in the STATUS word to detect potential faults (overflow signaled by the

XOVF flag or uninitialized condition signaled by the BOOTUP flag) or warnings and events (sag, creep, excessive

voltage or current, DIO signal changes). If necessary, take corrective action.

12) After reading the required data from the 71M6515H, configuration changes should be made, if necessary. These con-

figuration changes should be completed before the pre-processing period begins again.

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