71M6521DE Datasheet, PDF(69/101 Page) Teridian Semiconductor Corporation

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71M6521DE Datasheet, PDF (69/101 Pages) Teridian Semiconductor Corporation – Energy Meter IC

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V3P3D

71M6521DE/71M6521FE

Energy Meter IC

DATASHEET

JANUARY 2008

LCD Segments

(optional)

71M6521

62â¦

ICE_E

E_RST

E_RXTX

62â¦

22pF 22pF 22pF

E_TCLK

Figure 39: External Components for the Emulator Interface

Crystal Oscillator

The oscillator of the 71M6521DE/FE drives a standard 32.768kHz watch crystal. The oscillator has been designed specifically

to handle these crystals and is compatible with their high impedance and limited power handling capability. The oscillator

power dissipation is very low to maximize the lifetime of any battery backup device attached to VBAT.

Board layouts with minimum capacitance from XIN to XOUT will require less battery current. Good layouts will have XIN and

XOUT shielded from each other.

Since the oscillator is self-biasing, an external resistor must not be connected across the crystal.

Flash Programming

Operational or test code can be programmed into the flash memory using either an in-circuit emulator or the Flash

Programmer Module (TFP-1) available from TERIDIAN. The flash programming procedure uses the E_RST, E_RXTX, and

E_TCLK pins.

MPU Firmware Library

All application-specific MPU functions mentioned above under âApplication Informationâ are available from TERIDIAN as a

standard ANSI C library and as ANSI âCâ source code. The code is available as part of the Demonstration Kit for the

71M6521DE/FE IC. The Demonstration Kits come with the 71M6521DE/FE IC preprogrammed with demo firmware mounted

on a functional sample meter PCB (Demo Board). The Demo Boards allow for quick and efficient evaluation of the IC without

having to write firmware or having to supply an in-circuit emulator (ICE).

Meter Calibration

Once the TERIDIAN 71M6521DE/FE energy meter device has been installed in a meter system, it has to be calibrated for

tolerances of the current sensors, voltage dividers and signal conditioning components. The device can be calibrated using the

gain and phase adjustment factors accessible to the CE. The gain adjustment is used to compensate for tolerances of

components used for signal conditioning, especially the resistive components. Phase adjustment is provided to compensate for

phase shifts introduced by the current sensors.

Due to the flexibility of the MPU firmware, any calibration method, such as calibration based on energy, or current and voltage

can be implemented. It is also possible to implement segment-wise calibration (depending on current range).

The 71M6521DE/FE supports common industry standard calibration techniques, such as single-point (energy-only), multi-point

(energy, Vrms, Irms), and auto-calibration.

v1.0

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