71M6511 Datasheet, PDF(9/95 Page) Teridian Semiconductor Corporation

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71M6511 Datasheet, PDF (9/95 Pages) Teridian Semiconductor Corporation – Single-Phase Energy Meter IC

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71M6511/71M6511H

Single-Phase Energy Meter IC

DATA SHEET

AUGUST 2007

The Multiplexer Control Circuit handles the setting of the multiplexer. The function of the Multiplexer Control Circuit is governed

by the I/O RAM registers MUX_ALT (0x2005[2]), EQU (0x2000[7:5]), and MUX_DIV (0x2002[7:6]). MUX_DIV controls the

number of samples per cycle. It can request 2, 3, 4, or 6 multiplexer states per cycle.

The MUX_ALT bit requests an alternate multiplexer cycle. The bit may be asserted on any MPU cycle and may be sub-

sequently de-asserted on any cycle including the next one. A rising edge on MUX_ALT will cause the Control Circuit to wait

until the next multiplexer cycle and implement a single alternate cycle.

Multiplexer Control Circuit also controls the FIR filter initiation and the chopping of the ADC reference voltage, VREF. The

Multiplexer Control Circuit is clocked by CK32, the 32768Hz clock from the PLL block, and launches each pass through the CE

program.

Table 2 shows the possible settings for MUX_DIV and FIR_LEN and the resulting channels sampled along with sample

frequencies.

MUX_DIV

(0x2002[7.6])

Number of

channels

selected

(mux states

per cycle)

---

Number of

CK32 states

for code pass

Effective

sample

frequency

[Hz]

Number of

CK32 states

for code

pass

Effective

sample

frequency

[Hz]

FIR_LEN = 0

FIR_LEN =1

Not Allowed

3640.89

2520.615

4681.143

3276.8

6553.6

4681.143

Table 2: Channel control based on MUX_DIV and FIR_LEN

ADC

A single 21/22-bit delta-sigma A/D converter (ADC) digitizes the power inputs to the AFE. The resolution of the ADC is

programmable using the I/O RAM register FIR_LEN register (0x2005[4]). ADC resolution may be selected to be 21 bits

(FIR_LEN=0), or 22 bits (FIR_LEN=1). Conversion time is two cycles of CK32 with FIR_LEN = 0 and three cycles with

FIR_LEN = 1.

In order to provide the maximum resolution, the ADC should be operated with FIR_LEN = 1. Accuracy, timing and

functional specifications in this data sheet are based on FIR_LEN = 1 and MUX_DIV = 1 (four CK32 cycles). Alternative

specifications are also provided for FIR_LEN = 1 and MUX_DIV = 2 (three CK32 cycles) in the CE Program and

Environment section.

Initiation of each ADC conversion is controlled by the Multiplexer Control Circuit as described previously.

FIR Filter

The finite impulse response (FIR) filter is an integral part of the ADC and it is optimized for use with the multiplexer. The

purpose of the FIR is to decimate the ADC output to the desired resolution. At the end of each ADC conversion, the output

data of the FIR filter (raw data) is stored into the CE DRAM location determined by the multiplexer selection. The location of

the raw data in the CE DRAM is specified in the CE Program and Environment Section.

Voltage Reference

The 71M6511/6511H includes an on-chip precision bandgap voltage reference that incorporates auto-zero techniques. The

reference of the 71M6511H is trimmed in production to minimize errors caused by component mismatch and drift. The result is

a voltage output with a predictable temperature coefficient.

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