ADuCM331WFS
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ADuCM331WFS

Integrated, Precision Battery Sensor for Automotive Systems with Functional Safety

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Features
  • High precision ADCs
  • Dual-channel, simultaneous sampling
    • IADC 20-bit Σ-Δ (minimizes range switching)
    • VADC/TADC 20-bit Σ-Δ
  • Programmable ADC conversion rate from 4 Hz to 8 kHz
  • On-chip ±5 ppm/°C voltage reference
  • Current channel
    • Fully differential, buffered input
    • Programmable gain (from 4 to 512)
    • ADC absolute input range: −200 mV to +300 mV
    • Digital comparator with current accumulator feature
  • Voltage channel
    • Buffered, on-chip attenuator for 12 V battery input
  • Temperature channel
    • External and on-chip temperature sensor options
  • Microcontroller
    • Arm Cortex-M3 32-bit processor
    • 16.384 MHz precision oscillator with 1% accuracy (high precision)
    • Serial wire debug (SWD) port supporting code download and debug
  • Automotive qualified integrated LIN transceiver
    • LIN 2.2-compatible slave, 100 kbaud fast download option
    • SAE J2602-compatible slave
    • Low electromagnetic emissions
    • High electromagnetic immunity
  • Memory
    • 96 kB programmable Flash/EE memory (ADuCM330WFS), ECC
    • 128 kB programmable Flash/EE memory (ADuCM331WFS), ECC
    • 10 kB SRAM, ECC
    • 4 kB data Flash/EE memory, ECC
    • 10,000 cycle Flash/EE endurance
    • 20 year Flash/EE retention
  • In circuit download via SWD and LIN
  • On-chip peripherals
    • SPI
    • GPIO port
    • General-purpose timer
    • Wake-up timer
    • Watchdog timer
    • On-chip, power-on reset
  • Power
    • Operates directly from 12 V battery supply
    • Power consumption, 8 mA typical (16 MHz) at TA = −40°C to +115°C
    • Low power monitor mode
  • Package and temperature range
    • 6 mm × 6 mm, 32-lead LFCSP
    • Fully specified for −40°C to +115°C operation; additional specifications for 115°C to 125°C
  • AEC-Q100 qualified for automotive applications
  • Developed for use in ISO 26262 applications for ASIL Capability B
Additional Details
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The ADuCM330WFS/ADuCM331WFS are fully integrated, 8 kHz data acquisition systems that incorporate dual, high performance, multichannel, Σ-Δ analog-to-digital converters (ADCs), a 32-bit Arm® Cortex-M3 processor, and flash. The ADuCM330WFS has 96 kB Flash/EE memory, and the ADuCM331WFS has 128 kB Flash/EE memory. Both devices have 4 kB data flash. Error correction code (ECC) is available on all flash and SRAM memories.

The ADuCM330WFS/ADuCM331WFS are complete system solutions for battery monitoring in 12 V automotive applications.

The ADuCM330WFS/ADuCM331WFS integrate all features required 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 devices are powered directly from a 12 V battery. On-chip, low dropout (LDO) regulators generate the supply voltage for two integrated Σ-Δ ADCs. The ADCs precisely measure battery current, voltage, and temperature to characterize the state of the health and the charge of the car battery.

The devices operate from an on-chip, 16.384 MHz high frequency oscillator that supplies the system clock that is routed through a programmable clock divider, from which the core clock operating frequency is generated. The devices also contain a 32 kHz oscillator for low power operation.

The analog subsystem consists of an ADC with a programmable gain amplifier (PGA) that allows the monitoring of various current and voltage ranges. The analog subsystem also includes an on-chip precision reference.

The ADuCM330WFS/ADuCM331WFS integrate a range of on-chip peripherals that can be configured under core software control as required in the application. These peripherals include a serial port interface (SPI) serial input/output communication controller, six general-purpose input/output (GPIO) pins, one general-purpose timer, a wake-up timer, and a watchdog timer. See the ADuCM330WFS/ADuCM331WFS Hardware Reference Manual for more information.

The ADuCM330WFS/ADuCM331WFS are designed to operate in battery-powered applications where low power operation is critical. The microcontroller core can be configured in normal operating mode, resulting in an overall system current consumption of 18.5 mA when all peripherals are active. The devices can also be configured in a number of low power operating modes under direct program control, consuming <100 μA.

The ADuCM330WFS/ADuCM331WFS include a local interconnect network (LIN) physical interface for single-wire, high voltage communications in automotive environments. The LIN transceiver is compliant to LIN 2.2 and Society of Automotive Engineers (SAE) J2602-2.

The devices operate from an external 3.6 V to 19 V (on VDD, Pin 26) voltage supply and are specified over the −40°C to +115°C temperature range, with additional typical specifications at +115°C to +125°C.

The information in this data sheet is relevant for Silicon Revision P60.

The ADuCM330WFS/ADuCM331WFS are developed for use in ISO 26262 applications for Automotive Safety Integrity Level Capability B (ASIL B). The ADuCM330WFS/ADuCM331WFS are low electromagnetic emissions and high electromagnetic immunity devices.

Multifunction pin names may be referenced by the relevant function only.

Applications

  • Battery sensing and management for automotive and light mobility vehicles
  • Lead acid battery measurement for power supplies in industrial and medical domains

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Software & Part Ecosystem

Evaluation Kits 1

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EVAL-ADUCM330

ADuCM330/ADuCM331 Evaluation Board

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EVAL-ADUCM330

ADuCM330/ADuCM331 Evaluation Board

ADuCM330/ADuCM331 Evaluation Board

Product Detail

The EVAL-ADUCM331QSPZ development system supports ADuCM330 and ADuCM331 devices and allows a flexible platform for evaluation of the ADuCM330/ADuCM331 silicon. It allows quick removal and insertion of a device via a 32-lead LFCSP socket. It also provides the connections necessary to allow rapid measurement setups. Switches and LEDs are provided on the applications board to assist in debugging and simple code development. Sample code projects are also provided to show key features of each peripheral and examples of how they can be configured.

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