ADUC7036

NOT RECOMMENDED FOR NEW DESIGNS

Integrated Precision Battery Sensor for Automotive

Data Sheet (Rev. C) Product Selection Table

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Overview

High precision ADCs

Dual channel, simultaneous sampling, 16-bit, Σ-Δ ADCs
Programmable ADC throughput from 1 Hz to 8 kHz
On-chip 5 ppm/°C voltage reference
Current channel
Fully differential, buffered input
Programmable gain from 1 to 512
ADC input range: −200 mV to +300 mV
Digital comparators, with current accumulator feature
Voltage channel
Buffered, on-chip attenuator for 12 V battery inputs
Temperature channel
External and on-chip temperature sensor options

Microcontroller

ARM7TDMI^® core, 16-/32-bit RISC architecture
20.48 MHz PLL with programmable divider
PLL input source
On-chip precision oscillator
On-chip low power oscillator
External (32.768 kHz) watch crystal
JTAG port supports code download and debug

Memory

96-kB Flash/EE memory, 6-kB SRAM
10,000-cycle Flash/EE endurance, 20-year Flash/EE retention
In-circuit download via JTAG and LIN

On-chip peripherals

SAEJ2602/LIN 1.3/LIN 2.0-compatible (slave) support via UART with hardware synchronization
Flexible wake-up I/O pin, master/slave SPI^® serial I/O
9-pin GPIO port, 3× general-purpose timers
Wake-up and watchdog timers
Power supply monitor, on-chip power-on-reset

Power

Operates directly from 12 V battery supply
Current consumption
Normal mode 10 mA at 10 MHz
Low power monitor mode

Package and temperature range

48-lead, 7 mm × 7 mm LFCSP
Fully specified for −40°C to +115°C operation

The ADuC7036 is a complete system solution for battery monitoring in 12 V automotive applications. These devices integrate all of the required features to precisely and intelligently monitor, process, and diagnose 12 V battery parameters including battery current, voltage, and temperature, over a wide range of operating conditions.

Minimizing external system components, the device is powered directly from the 12 V battery. An on-chip, low dropout regulator generates the supply voltage for two integrated, 16-bit, Σ-Δ ADCs. The ADCs precisely measure battery current, voltage, and temperature to characterize the state of the health and charge of the car battery.

A Flash/EE memory-based ARM7^™ microcontroller (MCU) is also integrated on chip. It is used to both preprocess the acquired battery variables and to manage communications from the ADuC7036 to the main electronic control unit (ECU) via a local interconnect network (LIN) interface that is integrated on chip.

Both the MCU and the ADC subsystem can be individually configured to operate in normal or flexible power saving modes of operation.

Applications

Battery sensing/management for automotive systems

Documentation

Data Sheet 1

ADuC7036: Integrated Precision Battery Sensor for Automotive Data Sheet (Rev.C) 04/08/2011
- ADuC7036: Integrated Precision Battery Sensor for Automotive Systems Silicon Anomaly (Rev C, 3/2011)

Application Note 3

AN-881: Flash/EE Memory Programming via LIN—Protocol 4 (Rev.0) 02/27/2009

AN-1138: LINB DLL Programmer´s Guide 01/01/2012

AN-891: ADuC703x Series LIN Baud Rate Calculations 03/11/2025

This is the most up-to-date revision of the Data Sheet.

Software Resources

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Tools & Simulations

Sigma-Delta ADC Tutorial

An interactive illustration showing the behavior of an idealized sigma-delta A/D converter.

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Evaluation Kits

ADuC7036 QuickStart Plus Development System

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Product Details

Development system for evaluation of the ADuC7036, complete system solution for battery monitoring in 12 V automotive applications.

The QuickStart Plus Kit features debug via UART and an assembly & C-source debugging environment. In addition it allows true non-intrusive JTAG emulation.