Intel IXF1104 manual 5.8.4Mode 1: Detailed Operation, Datasheet

IXF1104 Quad-Port 10/100/1000 Mbps Ethernet Media Access Controller

Table 32. Mode 0 Clock Cycle to Data Bit Relationship

When implemented on the board with the M5450 device, the LED DATA bit 1 appears on Output bit 3 of the M5450 and the LED DATA bit 2 appears on Output bit 4, etc. This means that Output bits 1, 2, and 15 through 35 will never have valid data and should not be used.

5.8.4Mode 1: Detailed Operation

Note: Please refer to generic specifications for 74LS/HC599 for information on device operation.

The operation of the LED Interface in Mode 1 is based on a 36-bit counter loop. The data for each LED is placed in turn on the serial data line and clocked out by the LED_CLK. Figure 30 on page 117 shows the basic timing relationship and relative positioning in the data stream of each bit.

Figure 30 on page 117 shows the 36 clocks which are output on the LED_CLK pin. The data is changed on the falling edge of the clock and is valid for the almost the entire clock cycle. This ensures that the data is valid during the rising edge of the LED_CLK, which clocks the data into the shift register chain devices.

The LED_LATCH signal is required in Mode 1, and latches the data shifted into the shift register chain into the output latches of the 74HC599 device. Figure 30 shows that the LED_LATCH signal is active High during the Low period on the 35th LED_CLK cycle. This avoids any possibility of trying to latch data as it is shifting through the register.

When this operation mode is implemented on a board with a shift register chain containing three 74HC599 devices, the LED DATA bit 1 is output on Shift register bit 1, and so on up the chain. Only Shift register bits 31 and 32 do not contain valid data.

The actual data shown in Figure 30 consists of a 36-bit chain, of which 12 bits are valid LED DATA. The 36-bit data chain is built up as shown in Figure 30.

Document Number: 278757

Revision Number: 007

Revision Date: March 25, 2004