71M6403 Datasheet, PDF(11/75 Page) Teridian Semiconductor Corporation

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71M6403 Datasheet, PDF (11/75 Pages) Teridian Semiconductor Corporation – Electronic Trip Unit

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71M6403

Electronic Trip Unit

SEPTEMBER 2006

Functional Description

The AFE functions as a data acquisition system, controlled by the MPU. The main signals (I0, I3, I1, I4, I2, I5) are sampled and

the ADC counts obtained are stored in CE RAM where they can be accessed by the CE and, if necessary, by the MPU.

INEUTRAL

MUX

TEMP

MUX

CTRL

MUX_ALT

MUX_DIV

VREF VBIAS

VREF

CHOP_EN

VREF_DIS

CK32

VBIAS

V3P3A

âÎ£ ADC

CONVERTER

VREF

Figure 3: AFE Block Diagram

FIR

FILTER

FIR_LEN

Computation Engine (CE)

The CE, a dedicated 32-bit RISC processor, performs the precision computations necessary to accurately measure currents.

The CE calculations and processes include:

â¢ Scaling of the processed samples based on chip temperature (temperature compensation) and calibration coefficients.

The CE program RAM (CE PRAM) is loaded at boot time by the MPU and then executed by the CE. Each CE instruction word is

2 bytes long. The CE program counter begins a pass through the CE code each time multiplexer state 0 begins. The code pass

ends when a HALT instruction is executed. For proper operation, the code pass must be completed before the multiplexer cycle

ends (see System Timing Summary in the Functional Description Section).

The CE data RAM (CE DRAM) is shared by the FIR filter block, the RTM circuit, the CE, and the MPU. Assigned time slots are

reserved for FIR, RTM, and MPU, respectively, such that memory accesses to CE_RAM do not collide. Holding registers are

used to convert 8-bit wide MPU data to/from 32-bit wide CE DRAM data, and wait states are inserted as needed, depending on

the frequency of CKMPU.

Table 2 shows the CE DRAM addresses allocated to analog inputs from the AFE.

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