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CY8C5385AXI-043 Datasheet(PDF) 5 Page - Cypress Semiconductor |
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CY8C5385AXI-043 Datasheet(HTML) 5 Page - Cypress Semiconductor |
5 / 102 page PRELIMINARY PSoC® 5: CY8C53 Family Datasheet Document Number: 001-55035 Rev. *G Page 5 of 102 The three types of PSoC I/O are extremely flexible. All I/Os have many drive modes that are set at POR. PSoC also provides up to four I/O voltage domains through the VDDIO pins. Every GPIO has analog I/O, LCD drive, flexible interrupt generation, slew rate control, and digital I/O capability. The SIOs on PSoC allow VOH to be set independently of VDDIO when used as outputs. When SIOs are in input mode they are high impedance. This is true even when the device is not powered or when the pin voltage goes above the supply voltage. This makes the SIO ideally suited for use on an I2C bus where the PSoC may not be powered when other devices on the bus are. The SIO pins also have high current sink capability for applications such as LED drives. The programmable input threshold feature of the SIO can be used to make the SIO function as a general purpose analog comparator. For devices with Full-Speed USB the USB physical interface is also provided (USBIO). When not using USB these pins may also be used for limited digital functionality and device programming. All the features of the PSoC I/Os are covered in detail in the “I/O System and Routing” section on page 28 of this datasheet. The PSoC device incorporates flexible internal clock generators, designed for high stability and factory trimmed for high accuracy. The internal main oscillator (IMO) is the master clock base for the system, and has 1% accuracy at 3 MHz. The IMO can be configured to run from 3 MHz up to 74 MHz. Multiple clock derivatives can be generated from the main clock frequency to meet application needs. The device provides a PLL to generate system clock frequencies up to 80 MHz from the IMO, external crystal, or external reference clock. It also contains a separate, very low-power internal low speed oscillator (ILO) for the sleep and watchdog timers. A 32.768-kHz external watch crystal is also supported for use in real time clock (RTC) applications. The clocks, together with programmable clock dividers, provide the flexibility to integrate most timing requirements. The CY8C53 family supports a wide supply operating range from 1.71 to 5.5 V. This allows operation from regulated supplies such as 1.8 ± 5%, 2.5 V ±10%, 3.3 V ± 10%, or 5.0 V ± 10%, or directly from a wide range of battery types. In addition, it provides an integrated high efficiency synchronous boost converter that can power the device from supply voltages as low as 0.5 V. This enables the device to be powered directly from a single battery or solar cell. In addition, the designer can use the boost converter to generate other voltages required by the device, such as a 3.3 V supply for LCD glass drive. The boost’s output is available on the VBOOST pin, allowing other devices in the application to be powered from the PSoC. PSoC supports a wide range of low-power modes. These include a 300-nA hibernate mode with RAM retention and a 2-µA sleep mode with RTC. In the second mode the optional 32.768-kHz watch crystal runs continuously and maintains an accurate RTC. Power to all major functional blocks, including the programmable digital and analog peripherals, can be controlled independently by firmware. This allows low-power background processing when some peripherals are not in use. This, in turn, provides a total device current of only 2 mA when the CPU is running at 6 MHz. The details of the PSoC power modes are covered in the “Power System” section on page 23 of this datasheet. PSoC uses JTAG (4-wire) or SWD (2-wire) interfaces for programming, debug, and test. Using these standard interfaces enables the designer to debug or program the PSoC with a variety of hardware solutions from Cypress or third party vendors. The Cortex-M3 debug and trace modules include FPB, DWT, ETM, and ITM. These modules have many features to help solve difficult debug and trace problems. Details of the programming, test, and debugging interfaces are discussed in the “Programming, Debug Interfaces, Resources” section on page 56 of this datasheet. 2. Pinouts The VDDIO pin that supplies a particular set of pins is indicated by the black lines drawn on the pinout diagrams in Figure 2-2 and Figure 2-3. Using the VDDIO pins, a single PSoC can support multiple interface voltage levels, eliminating the need for off-chip level shifters. Each VDDIO may sink up to 100 mA total to its associated I/O pins and opamps. On the 68-pin and 100-pin devices each set of VDDIO associated pins may sink up to 100 mA. The 48 pin device may sink up to 100 mA total for all Vddio0 plus Vddio2 associated I/O pins and 100 mA total for all Vddio1 plus Vddio3 associated I/O pins. [+] Feedback |
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