78M6612 Maxim, 78M6612 Datasheet - Page 7
78M6612
Manufacturer Part Number
78M6612
Description
The Teridian™ 78M6612 is a highly integrated, single-phase, power and energy measurement and monitoring system-on-chip (SoC) that includes a 32-bit compute engine (CE), an MPU core, RTC, and flash
Manufacturer
Maxim
Datasheet
1.78M6612.pdf
(46 pages)
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DS_6612_001
1 Hardware Description
1.1 Hardware Overview
The Teridian 78M6612 single-chip measurement and monitoring IC integrates all the primary AC
measurement and control blocks required to implement a solid-state electricity Power and Energy
Measurement function. The 78M6618 includes:
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Various current sensor technologies are supported including Current Transformers (CT), and Resistive
Shunts.
In a typical application, the 32-bit compute engine (CE) of the 78M6612 sequentially processes the
samples from the analog inputs on pins IA, VA, IB, VB and performs calculations to measure active
energy (Wh), reactive energy (VARh), A
measurements are then accessed by the MPU, processed further, and output using the peripheral
devices available to the MPU.
In addition to advanced measurement functions, the real time clock function allows the 78M6612 to
record time of use (TOU) measurement information for multi-rate applications and to time-stamp events.
Measurements can be displayed on 3.3 V LCDs if desired. Flexible mapping of LCD display segments
will facilitate utilization of existing custom LCDs. Design trade-off between number of LCD segments vs.
DIO pins can be implemented in software to accommodate various requirements.
In addition to the temperature-trimmed ultra-precision voltage reference, the on-chip digital temperature
compensation mechanism includes a temperature sensor and associated controls for correction of
unwanted temperature effects on measurement and RTC accuracy, e.g. to meet the requirements of
ANSI and IEC standards. Temperature-dependent external components such as crystal oscillator,
current transformers (CTs), and their corresponding signal conditioning circuits can be characterized and
their correction factors can be programmed to produce measurements with exceptional accuracy over the
industrial temperature range.
A block diagram of the IC is shown in
Rev 2
A four-input analog front end (AFE)
An independent digital computation engine (CE)
An 8051-compatible microprocessor (MPU) which executes one instruction per clock cycle (80515)
A precision voltage reference
A temperature sensor
LCD drivers
RAM and Flash memory
A real time clock (RTC)
A variety of I/O pins
Figure
2
h, and V
1. A detailed description of various functional blocks follows.
2
h for four-quadrant measurement. These
78M6612 Data Sheet
7
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