AD4129-4
32 μA, Ultra-Low Power, 16-Bit Sigma-Delta ADC with Integrated PGA and FIFO
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特性
- Ultra-low current consumption (typical)
- 32 μA: continuous conversion mode (gain = 128)
- 5 μA: duty cycling mode (ratio = 1/16)
- 0.5 μA: standby mode
- 0.1 μA: power-down mode
- Built-in features for system level power savings
- Current saving duty cycle ratio: 1/4 or 1/16
- Smart sequencer and per channel configuration minimizes host processor load
- Deep embedded FIFO minimizes host processor load (depth of 256 samples)
- Autonomous FIFO interrupt functionality, threshold detection
- Single supply as low as 1.71 V increasing battery length
- RMS noise: 25 nV rms at 1.17 SPS (gain = 128) – 48 nV/√Hz
- Up to 16 noise free bits (gain = 1)
- Output data rate: 1.17 SPS to 2.4 kSPS
- Operates from 1.71 V to 3.6 V single supply or ±1.8 V split supplies
- Band gap reference with 15 ppm/°C maximum drift
- PGA with rail-to-rail analog input
- Adaptable sensor interfacing functionality
- Matched programmable excitation currents for RTDs
- On-chip bias voltage generator for thermocouples
- Low-side power switch for bridge transducers
- Sensor open-wire detection
- Internal temperature sensor and oscillator
- Self and system calibration
- Flexible filter options
- Simultaneous 50 Hz/60 Hz rejection (on selected filter options)
- General-purpose outputs
- Diagnostic functionality
- Crosspoint multiplexed inputs
- 4 differential/8 pseudodifferential inputs
- 5 MHz SPI (3-wire or 4-wire)
- Available in 32-lead, 5 mm × 5 mm LFCSP
- Temperature range: −40°C to +125°C (LFCSP)
- AD4129-4 LFCSP pin compatible with AD7124-4 LFCSP
The AD4129-4 is an ultra-low power, high precision, and measurement solution for low bandwidth battery-operated applications. The fully integrated analog front end (AFE) includes a multiplexer for up to 8 single-ended or 4 differential inputs, programmable gain amplifier (PGA), 16-bit sigma-delta (Σ-Δ) analog-to-digital converter (ADC), on-chip reference and oscillator, selectable filter options, smart sequencer, sensor biasing and excitation options, diagnostics, and newly added features to improve the battery-operated lifetime (more than 5 years on a coin cell), that is, a first in, first out (FIFO) buffer and duty cycling.
The AD4129-4 allows users to measure low-frequency signals with a current consumption of 28.5 μA (gain = 1) and 32.5 μA (gain = 128) while continuously converting, and even lower average currents when using one of the duty cycling options. The AD4129-4 can be configured to have 4 differential inputs or 8 single-ended or pseudodifferential inputs, which connect to a crosspoint multiplexer, where any input pair can become a measurement channel input to the PGA and ADC.
The AD4129-4 is designed to allow the user to operate from a single analog supply voltage from 1.71 V to 3.6 V. In battery applications, operation as low as 1.71 V can extend the system lifetime as the AFE can continue its operation, even as the battery voltage dissipates. The digital supply can be separate and range from 1.65 V to 3.6 V.
Together with the reduced current consumption, the integration of an on-chip FIFO buffer can be used in tandem with the smart sequencer, to enable the AD4129-4 to become an autonomous measurement system, which allows the microcontroller to sleep for extended periods.
Intelligent interrupt functionality gives the user a greater confidence in both error detection and safety. The user can enable an interrupt signal to trigger when the samples in the FIFO reach a predefined value or when a user-programmable threshold is exceeded.
The following key analog functions are offered on the AD4129-4 to allow simple and effective connection to transducers used for measuring temperature, load, and pressure:
- PGA. Due to the programmable gain (from 1 to 128) and the high input impedance with low input current, the PGA allows direct interfacing to transducers with low output amplitudes such as resistive bridges, thermocouples, and resistance temperature detectors (RTDs).
- The capacitive PGA allows full common-mode input range, giving designers greater margin for widely varying input common modes. A wider common-mode input range improves the overall resolution and is highly effective in ratio metric measurements.
- Low drift precision current sources. The IEXC0 and IEXC1 current sources can be used to excite 2‑, 3‑, and 4‑wire RTDs. Excitation current output options include 100 nA, 10 μA, 20 μA, 50 μA, 100 μA, 150 μA, and 200 μA.
- The low-side power switch (PDSW) can be used to power down bridge sensors between conversions. The PDSW can be controlled within the sequencer on a per channel basis, allowing optimum timing and energy savings in the overall system. The PDSW can also allow higher powered analog sensors to be used in a low power system.
- Voltage bias for thermocouples (the VBIAS source sets the common-mode voltage of a channel to AVDD/2).
- The smart sequencer allows the conversion of each enabled preconfigured channel in a predetermined order, allowing a mix of transducer, system checks, and diagnostic measurements to be interleaved. The sequencer eliminates the need for repetitive serial interface communication with the device. Sixteen channels can be configured in the sequence, each of them selecting from eight predefined ADC setups that allow selection of gain, filter type, output data rate, buffering, timing, and reference source.
High levels of integrated front-end functionality, coupled with small package options, allow smaller end solutions. For example, the AD4129-4 integrates a low thermal drift band gap reference in addition to accepting an external differential reference, which can be internally buffered.
In safety critical applications, the AD4129-4 includes diagnostic functionality such as open-wire detection through burnout currents, internal temperature sensor, reference detection, and analog input overvoltage and undervoltage detection. Added diagnostics are included on the digital interface such as cyclic redundancy check (CRC) and serial interface checks for a robust communication link.
APPLICATIONS
- Smart transmitters
- Wireless battery and harvester powered sensor nodes
- Portable instrumentation
- Temperature measurement: thermocouple, RTD, thermistors
- Pressure measurement: bridge transducers
- Healthcare and wearables
提问
在下面提交您的问题,我们将从 ADI 的知识库中给出最佳答案:
您可以在其他地方找到帮助
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产品技术资料帮助
ADI公司所提供的资料均视为准确、可靠。但本公司不为用户在应用过程中侵犯任何专利权或第三方权利承担任何责任。技术指标的修改不再另行通知。本公司既没有含蓄的允许,也不允许借用ADI公司的专利或专利权的名义。本文出现的商标和注册商标所有权分别属于相应的公司。
参考资料
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产品型号 | 引脚/封装图-中文版 | 文档 | CAD 符号,脚注和 3D模型 |
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AD4129-4BCBZ-RL7 | CHIPS W/SOLDER BUMPS/WLCSP |
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AD4129-4BCPZ-RL7 | LFCSP:LEADFRM CHIP SCALE |
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- AD4129-4BCBZ-RL7
- 引脚/封装图-中文版
- CHIPS W/SOLDER BUMPS/WLCSP
- 文档
- HTML Material Declaration
- HTML Reliablity Data
- CAD 符号,脚注和 3D模型
- Ultra Librarian
- SamacSys
- AD4129-4BCPZ-RL7
- 引脚/封装图-中文版
- LFCSP:LEADFRM CHIP SCALE
- 文档
- HTML Material Declaration
- HTML Reliablity Data
- CAD 符号,脚注和 3D模型
- Ultra Librarian
- SamacSys
评估套件 1
EVAL-AD4129-8
用于 AD4129-8 的评估板,8 通道,超低功耗,具有集成前端和 FIFO 的 16 位 Σ-Δ ADC
产品详情
EVAL-AD4129-8WARDZ 评估套件采用 AD4129-8 16 位超低功耗低噪声模数转换器 (ADC)。
通过连接到 EVAL-SDP-CK1Z 母板,EVAL-AD4129-8WARDZ 板可连接到 PC 的 USB 端口。通过 PC 将 5V USB 电源调节为 3.3V,从而为 AD4129-8 供电并支持所有必要的元件。
AD4129-8 ACE 插件可以全面配置 AD4129-8 套件寄存器功能,并以波形图、直方图和相关噪声分析的形式为 ADC 性能评估提供直流时域分析。
EVAL-AD4129-8WARDZ 是一款用于评估 ADC 特性的评估板。凭借 EVAL-SDP-CK1Z 系统演示平台 (SDP),用户 PC 可执行软件可通过 USB 控制 AD4129-8。
产品数据手册提供了 AD4129-8 的完整规格。使用 EVAL-AD4129-8WARDZ 评估板时,请参阅 AD4129-8 数据手册,同时参阅本用户指南。