ADI公司的ADuCM360是全集成的4kSPS 24位数据采集系统,集成了两个高性能多路Sigma-Delta (Σ-Δ) ADC,32位ARM Cortex M3®MCU和闪存/EE存储器,能直接双线和外接精密传感器接口,并采用电池供电.模拟输入/输出,单端和全差分输入,输入范围±6.64 mV 到±1.2 V,可编程ADC输出速率(4Hz到4kHz),可编程增益从1到128,RMS噪音为43nV @3.75Hz和180nV @ 50Hz,主要用于工业自动化和过程控制,智能的精密检测系统,4mA到20mA回路智能传感器系统,医疗设备和病人监护.本文介绍了ADuCM360主要特性,方框图,以及采用ADuCM360和外接热电偶的基于USB温度监测器特性,电路图和材料清单与PCB布局图.
The ADuCM360 is a fully integrated, 4 kSPS, 24-bit data acqui-sition system incorporating dual, high performance multi-channel sigma-delta (Σ-Δ) analog-to-digital converters (ADCs), 32-bit ARM Cortex M3®MCU, and Flash/EE memory on a single chip. The part is designed for direct interfacing to external precision sensors in both wired and battery powered applications.
The ADuCM361 contains all the features of the ADuCM360 except the primary ADC, ADC0 is not available – only the auxiliary ADC, ADC1 is available.
The device contains an on-chip 32 KHz oscillator and an internal 16MHz high-frequency oscillator. This clock is routed through a programmable clock divider from which the MCU core clock operating frequency is generated. The maximum core clock speed is 16MHz and this is not limited by operating voltage or temperature.
The microcontroller core is a low power Cortex-M3 core from ARM. It is a 32-bit RISC machine, offering up to 20 MIPS peak performance. The Cortex-M3 MCU incorporates a flexible 11-channel DMA controller supporting all wired (SPI, UART, I2C) communication peripherals. 128k Bytes of non-volatile Flash/EE and 8k Bytes of SRAM are also integrated on-chip.
The Analog sub-system consists of dual ADCs each connected to a flexible input MUX. Both ADCs can operate in fully differential and single ended modes. Other on-chip ADC features include dual programmable excitation current sources, burn-out current sources and a bias voltage generator of AVDD_REG/2 (900mV) to set the common-mode voltage of an input channel. A low-side internal ground switch is provided to allow powering down of a bridge between conversions. The ADCs contain two parallel filters – a Sinc3 or Sinc4 in parallel with a Sinc2. The Sinc3 or Sinc4 filter is for precision measurements. The Sinc2 filter is for fast measurements and for detection of step changes in the input signal The device also contains a low noise, low drift internal band-gap reference or can be configured to accept up to 2 external reference sources in ratiometric measurement configurations. An option to buffer the external reference inputs is also provided on-chip. A single-channel buffered voltage output DAC is also provided on chip. The ADuCM360/ADuCM361 also integrates a range of on-chip peripherals which can be configured under microcontroller software control as required in the application. These peripherals include UART, I2C and dual SPI Serial I/O communication controllers, 19-Pin GPIO Ports, 2 General Purpose Timers, Wake-up Timer and System Watchdog Timer. A 16-bit PWM with six output channels is also provided.
The ADuCM360/ADuCM361 is specifically designed to operate in battery powered applications where low power operation is critical. The microcontroller core can be configured in a normal operating mode consuming 290μA/MHz (including Flash/SRAM Idd) resulting in an overall system current consumption of 1mA when all peripherals are active.
The part can also be configured in a number of low power operating modes under direct program control, including hibernate mode (internal wake-up timer active) consuming only 4μA. In hibernate mode, peripherals such as external interrupts or the internal wake up timer can wake up the device. This allows the part to operate in an ultra-low power operating mode and still respond to asynchronous external or periodic events.
On-chip factory firmware supports in-circuit serial download via a serial wire interface (2-pin JTAG system) and UART while non-intrusive emulation is also supported via the serial wire interface. These features are incorporated into a low-cost QuickStart Development System supporting this Precision Analog Microcontroller family.
The part operates from an external 1.8V to 3.6V voltage supply and is specified over an industrial temperature range of -40°C to 125℃.
The ADuCM360 is a fully integrated, 4 kSPS, 24-bit data acqui-sition system incorporating dual, high performance multi-channel sigma-delta (Σ-Δ) analog-to-digital converters (ADCs), 32-bit ARM Cortex M3®MCU, and Flash/EE memory on a single chip. The part is designed for direct interfacing to external precision sensors in both wired and battery powered applications.
为便携设备供电的创新型双输出LDO电源解决方案性能提高效率的措施包括同步整流、采用脉频调制PFM模式、最大限度降低RDSon功耗和先进的内部启用/禁用策略。同步整流用于降低二极管D前向电压而产生的功耗(见图1),在二次循环期间,NMOS晶体管短接 关于L6599 过流电路这是个L6599的过流电路,通过一个电容采样,我像问下,我标注的那两个RC是起到什么作用的。 QQ截图20201016160437.png(45.18 KB, 下载次数: 0)下载 电容电压单元如何进行飞法电容测量?半导体电容一般是皮法 (pF) 级或纳法(nF) 级。许多商用 LCR 或电容表可以使用适当的测量技术测量这些值,包括补偿技术。但是,某些应用要求飞法 (fF) 或 1e-15 级的非常灵敏的电容测
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