XR20M1170G16-0B Datasheet, PDF(6/56 Page) Exar Corporation

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XR20M1170G16-0B Datasheet, PDF (6/56 Pages) Exar Corporation – I2C/SPI UART WITH 64-BYTE FIFO

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XR20M1170

I2C/SPI UART WITH 64-BYTE FIFO

REV. 1.1.0

2.0 FUNCTIONAL DESCRIPTIONS

2.1 CPU Interface

The M1170 can operate with either an I2C-bus interface or an SPI interface. The CPU interface is selected via

the I2C/SPI# input pin.

2.1.1 I2C-bus Interface

The I2C-bus interface is compliant with the Standard-mode and Fast-mode I2C-bus specifications. The I2C-

bus interface consists of two lines: serial data (SDA) and serial clock (SCL). In the Standard-mode, the serial

clock and serial data can go up to 100 kbps and in the Fast-mode, the serial clock and serial data can go up to

400 kbps. The first byte sent by an I2C-bus master contains a start bit (SDA transition from HIGH to LOW

when SCL is HIGH), 7-bit slave address and whether it is a read or write transaction. The next byte is the sub-

address that contains the address of the register to access. The M1170 responds to each write with an

acknowledge (SDA driven LOW by M1170 for one clock cycle when SCL is HIGH). If the TX FIFO is full, the

M1170 will respond with a negative acknowledge (SDA driven HIGH by M1170 for one clock cycle when SCL is

HIGH) when the CPU tries to write to the TX FIFO. The last byte sent by an I2C-bus master contains a stop bit

(SDA transition from LOW to HIGH when SCL is HIGH). See Figures 3 - 5 below. For complete details, see

the I2C-bus specifications.

FIGURE 3. I2C START AND STOP CONDITIONS

SDA

SCL

START condition

STOP condition

FIGURE 4. MASTER WRITES TO SLAVE (M1170)

SLAVE

ADDRESS

White block: host to UART

Grey block: UART to host

nDATA

FIGURE 5. MASTER READS FROM SLAVE (M1170)

SLAVE

ADDRESS

White block: host to UART

Grey block: UART to host

ADDRESS

SLAVE

ADDRESS

nDATA

LAST DATA NA P

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