71M6521DEIM-DB Maxim Integrated Products, 71M6521DEIM-DB Datasheet - Page 99

71M6521DEIM-DB

Manufacturer Part Number

71M6521DEIM-DB

Description

Power Management Modules & Development Tools 71M6521DE DEMO BOARD M6521DE DEMO BOARD

Manufacturer

Maxim Integrated Products

Datasheet

1.71M6521DE-DB.pdf (138 pages)

Specifications of 71M6521DEIM-DB

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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71M652X Software User’s Guide

When operating with “internal” temperature compensation, the 71M6511 and 71M6513 ICs use the CE as the

compensation mechanism. Compensation is then based on the temperature deviation from nominal and the PPMC and

PPMC2 factors that are either derived from the on-chip fuses (71M6511H/6513H) or standard values (71M6511/6513)

that apply to the average chip.

In the 71M6521, the CE is no longer in charge of temperature compensation. In the 71M6521, the temperature

calculations are performed once per second in the MPU firmware (see Gain_Compensation() in meter.c). The gain

calculations set a global gain parameter (“gain_adj”) used by the CE code. As a side-effect, the parameters PPMC and

PPMC2, the coefficients that control the meter’s linear and quadratic gain by temperature, are now in MPU memory

space, rather than CE memory space. This causes very little loss of accuracy because the temperature changes only

slowly.

Various Test Modules are available from TERIDIAN. These Test Modules are small Keil projects that can be used to

test various functions of the 71M6521 IC. The available Test Modules are described in this section.

Even though written for the 71M6513, this Test Module can be used for the 71M6521. It builds a simple test code that

starts and runs the compute engine, collects meter data in RAM, and generates pulses for one accumulation interval.

The Keil project file is 6513_ce_example.uv2.

These Test Modules build simple tests of the serial ports. The tests start by sending the ASCII character "E" in a loop,

e.g. For testing with an oscilloscope.

characters, using polling IO. Sending the period character ( ".") switches the I/O to interrupting I/O.

Note that ser0test.c and ser1test.c use identical text, except for the include file. This is a very convenient technique for

moving serial I/O to a different port when requirements change.

The Keil project files are ser0test.uv2 and ser1test.uv2.

These Test Modules build simple routines for testing of the interrupting timers, run both once, and periodically. The

routines include an extended 30-second test that can be used with a stop-watch timer to measure accuracy.

Note that tmr0test.c and tmr1test.c use identical text except for the include file. This is a very convenient technique for

moving a timer IO to a different port when requirements change.

The Keil project files are tmr0test.uv2 and tmr1test.uv2.

This routine demonstrates the use and test of the eeprom interface.

The Keil project file is eepromtest.uv2.

This Test Module is written in 8051 assembler and is executed after processor reset. It pulses DIO7 on a meter chip.

This function is useful as a scope loop to discover if the chip resets when expected.

The Keil project file is RESET_PULSES_DIO7.UV2.

This Test Module is written in 8051 assembler and is executed after processor reset. It sets the security bit and then

displays the security bit on DIO_7. It is useful to test the behavior of the security bit under various system conditions.

Revision 1.7

5.17.5

5.18 TEST MODULES

5.18.1

5.18.2

5.18.3

5.18.4

5.18.5

5.18.6

Temperature Compensation

6513 CE Example

Testing the Security Bit

Timer Tests

Serial Port Tests

EEPROM Tests

Generating DIO Pulses on Reset

As soon as a character is received, the test code begins echoing typed

TERIDIAN Proprietary

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71M6521DEIM-DB Maxim Integrated Products, 71M6521DEIM-DB Datasheet - Page 99

71M6521DEIM-DB

Specifications of 71M6521DEIM-DB

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