Programmable Embedded USB Host and Peripheral Controller with Automotive AEC Grade Support Specification Sheet
Table Of Contents
- EZ-Host Features
- Typical Applications
- Introduction
- Functional Overview
- Interface Descriptions
- USB Interface
- OTG Interface
- External Memory Interface
- General Purpose IO Interface (GPIO)
- UART Interface
- I2C EEPROM Interface
- Serial Peripheral Interface
- High-Speed Serial Interface
- Programmable Pulse/PWM Interface
- Host Port Interface
- IDE Interface
- Charge Pump Interface
- Booster Interface
- Crystal Interface
- Boot Configuration Interface
- Operational Modes
- Power Savings and Reset Description
- Memory Map
- Registers
- Processor Control Registers
- CPU Flags Register [0xC000] [R]
- Bank Register [0xC002] [R/W]
- Hardware Revision Register [0xC004] [R]
- CPU Speed Register [0xC008] [R/W]
- Power Control Register [0xC00A] [R/W]
- Interrupt Enable Register [0xC00E] [R/W]
- Breakpoint Register [0xC014] [R/W]
- USB Diagnostic Register [0xC03C] [R/W]
- Memory Diagnostic Register [0xC03E] [W]
- External Memory Registers
- Timer Registers
- General USB Registers
- USB Host Only Registers
- Host n Control Register [R/W]
- Host n Address Register [R/W]
- Host n Count Register [R/W]
- Host n Endpoint Status Register [R]
- Host n PID Register [W]
- Host n Count Result Register [R]
- Host n Device Address Register [W]
- Host n Interrupt Enable Register [R/W]
- Host n Status Register [R/W]
- Host n SOF/EOP Count Register [R/W]
- Host n SOF/EOP Counter Register [R]
- Host n Frame Register [R]
- USB Device Only Registers
- Device n Endpoint n Control Register [R/W]
- Device n Endpoint n Address Register [R/W]
- Device n Endpoint n Count Register [R/W]
- Device n Endpoint n Status Register [R/W]
- Device n Endpoint n Count Result Register [R/W]
- Device n Port Select Register [R/W]
- Device n Interrupt Enable Register [R/W]
- Device n Address Register [W]
- Device n Status Register [R/W]
- Device n Frame Number Register [R]
- Device n SOF/EOP Count Register [W]
- OTG Control Registers
- GPIO Registers
- IDE Registers
- HSS Registers
- HSS Control Register [0xC070] [R/W]
- HSS Baud Rate Register [0xC072] [R/W]
- HSS Transmit Gap Register [0xC074] [R/W]
- HSS Data Register [0xC076] [R/W]
- HSS Receive Address Register [0xC078] [R/W]
- HSS Receive Counter Register [0xC07A] [R/W]
- HSS Transmit Address Register [0xC07C] [R/W]
- HSS Transmit Counter Register [0xC07E] [R/W]
- HPI Registers
- SPI Registers
- SPI Configuration Register [0xC0C8] [R/W]
- SPI Control Register [0xC0CA] [R/W]
- SPI Interrupt Enable Register [0xC0CC] [R/W]
- SPI Status Register [0xC0CE] [R]
- SPI Interrupt Clear Register [0xC0D0] [W]
- SPI CRC Control Register [0xC0D2] [R/W]
- SPI CRC Value Register [0xC0D4] [R/W]
- SPI Data Register [0xC0D6] [R/W]
- SPI Transmit Address Register [0xC0D8] [R/W]
- SPI Transmit Count Register [0xC0DA] [R/W]
- SPI Receive Address Register [0xC0DC [R/W]
- SPI Receive Count Register [0xC0DE] [R/W]
- UART Registers
- PWM Registers
- Processor Control Registers
- Pin Diagram
- Pin Descriptions
- Absolute Maximum Ratings
- Operating Conditions
- Crystal Requirements (XTALIN, XTALOUT)
- DC Characteristics
- AC Timing Characteristics
- Register Summary
- Ordering Information
- Package Diagrams
- Document History Page
- Sales, Solutions, and Legal Information
CY7C67300
Document #: 38-08015 Rev. *J Page 74 of 99
UART Status Register [0xC0E2] [R]
Register Description
The UART Status register is a read only register that indicates
the status of the UART buffer.
Receive Full (Bit 1)
The Receive Full bit indicates whether the receive buffer is full.
It can be programmed to interrupt the CPU as interrupt #5 when
the buffer is full. This can be done though the UART bit of the
Interrupt Enable register (0xC00E). This bit is automatically
cleared when data is read from the UART Data register.
1: Receive buffer full
0: Receive buffer empty
Transmit Full (Bit 0)
The Transmit Full bit indicates whether the transmit buffer is full.
It can be programmed to interrupt the CPU as interrupt #4 when
the buffer is empty. This can be done though the UART bit of the
Interrupt Enable register (0xC00E). This bit is automatically set
to ‘1’ after data is written by EZ-Host to the UART Data register
(to be transmitted). This bit is automatically cleared to ‘0’ after
the data is transmitted.
1: Transmit buffer full (transmit busy)
0: Transmit buffer is empty and ready for a new byte of data
UART Data Register [0xC0E4] [R/W]
Register Description
The UART Data register contains data to be transmitted or
received from the UART port. Data written to this register starts
a data transmission and also causes the UART Transmit Full
Flag of the UART Status register to set. When data received on
the UART port is read from this register, the UART Receive Full
Flag of the UART Status register is cleared.
Data (Bits [7:0])
The Data field is where the UART data to be transmitted or
received is located.
Reserved
Write all reserved bits with ’0’.
Table 122. UART Status Register
Bit # 15 14 13 12 11 10 9 8
Field Reserved...
Read/Write - - - - - - - -
Default 0 0 0 0 0 0 0 0
Bit # 7 6 5 4 3 2 1 0
Field ...Reserved Receive Full Transmit Full
Read/Write - - - - - - R R
Default 0 0 0 0 0 0 0 0
Table 123. UART Data Register
Bit # 15 14 13 12 11 10 9 8
Field Reserved
Read/Write - - - - - - - -
Default 0 0 0 0 0 0 0 0
Bit # 7 6 5 4 3 2 1 0
Field Data
Read/Write R/W R/W R/W R/W R/W R/W R/W R/W
Default 0 0 0 0 0 0 0 0
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