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Please continue to use the ordering part numbers listed in the datasheet for ordering. www.infineon.comCY7C63413C CY7C63513C CY7C63613C Low-Speed High Input/Output 1.5-Mbps USB Controller Low-Speed High Input/Output 1.5-Mbps USB Controller Features Functional Description Low-cost solution for low-speed applications with high I/O The CY7C63413C/513C/613C are 8-bit RISC one time requirements such as keyboards, keyboards with integrated programmable (OTP) microcontrollers. The instruction set has pointing device, gamepads, and many others been optimized specifically for USB operations, although the microcontrollers can be used for a variety of non-USB embedded USB Specification compliance applications. Conforms to USB Specification, Versions 1.1 and 2.0 The CY7C63413C/513C features 32 GPIO pins to support USB Conforms to USB HID Specification, Version 1.1 and other applications. The I/O pins are grouped into four ports Supports one device address and three data endpoints (Port 0 to 3) where each port can be configured as inputs with Integrated USB transceiver internal pull-ups, open drain outputs, or traditional CMOS 8-bit RISC microcontroller outputs. The CY7C63413C/513C have 24 GPIO pins (Ports 0 to 2) that are rated at 7 mA typical sink current. The Harvard architecture CY7C63413C/513C has 8 GPIO pins (Port 3) that are rated at 6-MHz external ceramic resonator 12 mA typical sink current, which allows these pins to drive 12-MHz internal CPU clock LEDs. Internal memory The CY7C63613C features 16 GPIO pins to support USB and 256 bytes of RAM other applications. The I/O pins are grouped into four ports (Port 8 Kbytes of EPROM 0 to 3) where each port can be configured as inputs with internal pull-ups, open drain outputs, or traditional CMOS outputs. The Interface can auto-configure to operate as PS2 or USB CY7C63613C has 12 GPIO pins (Ports 0 to 2) that are rated at I/O port 7 mA typical sink current. The CY7C63613C has four GPIO pins The CY7C63413C/513C have 24 general purpose I/O (Port 3) that are rated at 12 mA typical sink current, which allows (GPIO) pins (Port 0 to 2) capable of sinking 7 mA per pin these pins to drive LEDs. (typical) Multiple GPIO pins can be connected together to drive a single The CY7C63613C has 12 GPIO pins (Port 0 to 2) capable of output for more drive current capacity. Additionally, each I/O pin sinking 7 mA per pin (typical) can be used to generate a GPIO interrupt to the microcontroller. The CY7C63413C/513C have eight GPIO pins (Port 3) ca- pable of sinking 12 mA per pin (typical) which can drive LEDs Note the GPIO interrupts all share the same GPIO interrupt The CY7C63613C has four GPIO pins (Port 3) capable of vector. sinking 12 mA per pin (typical) which can drive LEDs The CY7C63513C features an additional 8 I/O pins in the DAC Higher current drive is available by connecting multiple GPIO port. Every DAC pin includes an integrated 14-K pull-up pins together to drive a common output resistor. When a 1 is written to a DAC I/O pin, the output current Each GPIO port can be configured as inputs with internal sink is disabled and the output pin is driven high by the internal pull-ups or open drain outputs or traditional CMOS outputs pull-up resistor. When a 0 is written to a DAC I/O pin, the The CY7C63513C has an additional eight I/O pins on a DAC internal pull-up is disabled and the output pin provides the port which has programmable current sink outputs programmed amount of sink current. A DAC I/O pin can be used Maskable interrupts on all I/O pins as an input with an internal pull-up by writing a 1 to the pin. 12-bit free-running timer with one microsecond clock ticks The sink current for each DAC I/O pin can be individually Watch Dog Timer (WDT) programmed to one of sixteen values using dedicated Isink registers. DAC bits 1:0 can be used as high current outputs with Internal Power-On Reset (POR) a programmable sink current range of 3.2 to 16 mA (typical). Improved output drivers to reduce EMI DAC bits 7:2 have a programmable current sink range of 0.2 to Operating voltage from 4.0 V to 5.5 V DC 1.0 mA (typical). Again, multiple DAC pins can be connected together to drive a single output that requires more sink current Operating temperature from 0 to 70 C capacity. Each I/O pin can be used to generate a DAC interrupt CY7C63413C available in 40-pin PDIP, 48-pin SSOP, 48-pin to the microcontroller and the interrupt polarity for each DAC I/O SSOP - Tape reel, all in Pb-free versions for production pin is individually programmable. The DAC port interrupts share a separate DAC interrupt vector. CY7C63513C available in 48-pin SSOP Pb-free packages for production The Cypress microcontrollers use an external 6-MHz ceramic resonator to provide a reference to an internal clock generator. CY7C63613C available in 24-pin SOIC Pb-free packages for This clock generator reduces the clock-related noise emissions production (EMI). The clock generator provides the 6 and 12-MHz clocks Industry-standard programmer support that remain internal to the microcontroller. Cypress Semiconductor Corporation 198 Champion Court San Jose, CA 95134-1709 408-943-2600 Document Number: 38-08027 Rev. *I Revised May 4, 2020