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CY8C4127LQI-BL483 Datasheet(PDF) 7 Page - Cypress Semiconductor |
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CY8C4127LQI-BL483 Datasheet(HTML) 7 Page - Cypress Semiconductor |
7 / 48 page PRELIMINARY PSoC® 4: PSoC 4XX8_BLE Family Datasheet Document Number: 001-94624 Rev. *L Page 7 of 48 Analog Blocks 12-bit SAR ADC The 12-bit, 1-Msps SAR ADC can operate at a maximum clock rate of 18 MHz and requires a minimum of 18 clocks at that frequency to do a 12-bit conversion (up to 806 Ksps for the PSoC 41X8_BLE derivatives). The block functionality is augmented for the user by adding a reference buffer to it (trimmable to ±1%) and by providing the choice of three internal voltage references, VDD, VDD/2, and VREF (nominally 1.024 V), as well as an external reference through a GPIO pin. The Sample-and-Hold (S/H) aperture is programmable; it allows the gain bandwidth requirements of the amplifier driving the SAR inputs, which determine its settling time, to be relaxed if required. System performance will be 65 dB for true 12-bit precision provided appropriate references are used and system noise levels permit it. To improve the perfor- mance in noisy conditions, it is possible to provide an external bypass (through a fixed pin location) for the internal reference amplifier. The SAR is connected to a fixed set of pins through an 8-input sequencer. The sequencer cycles through the selected channels autonomously (sequencer scan) and does so with zero switching overhead (that is, the aggregate sampling bandwidth is equal to 1 Msps whether it is for a single channel or distributed over several channels). The sequencer switching is effected through a state machine or through firmware-driven switching. A feature provided by the sequencer is the buffering of each channel to reduce CPU interrupt-service requirements. To accommodate signals with varying source impedances and frequencies, it is possible to have different sample times programmable for each channel. Also, the signal range specification through a pair of range registers (low and high range values) is implemented with a corresponding out-of-range interrupt if the digitized value exceeds the programmed range; this allows fast detection of out-of-range values without having to wait for a sequencer scan to be completed and the CPU to read the values and check for out-of-range values in software. The SAR is able to digitize the output of the on-chip temperature sensor for calibration and other temperature-dependent functions. The SAR is not available in Deep Sleep and Hibernate modes as it requires a high-speed clock (up to 18 MHz). The SAR operating range is 1.71 to 5.5 V. Figure 4. SAR ADC System Diagram Opamps (CTBm Block) PSoC 42X8_BLE has four opamps with Comparator modes, which allow most common analog functions to be performed on-chip, eliminating external components. PGAs, voltage buffers, filters, transimpedance amplifiers, and other functions can be realized with external passives saving power, cost, and space. The on-chip opamps are designed with enough bandwidth to drive the sample-and-hold circuit of the ADC without requiring external buffering. Temperature Sensor PSoC 4XX8_BLE has an on-chip temperature sensor. This consists of a diode, which is biased by a current source that can be disabled to save power. The temperature sensor is connected to the ADC, which digitizes the reading and produces a temper- ature value by using a Cypress-supplied software that includes calibration and linearization. Low-Power Comparators PSoC 4XX8_BLE has a pair of low-power comparators, which can also operate in Deep Sleep and Hibernate modes. This allows the analog system blocks to be disabled while retaining the ability to monitor external voltage levels during low-power modes. The comparator outputs are normally synchronized to avoid metastability unless operating in an asynchronous power mode (Hibernate) where the system wake-up circuit is activated by a comparator-switch event. Data and Status Flags Reference Selection External Reference and Bypass (optional ) POS NEG SAR Sequencer SARADC Inputs from other Ports VDD/2 VDDD VREF AHB System Bus and Programmable Logic Interconnect Sequencing and Control |
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