TE0320 has a flexible SPI bus on-board as outlined in Figure 29.
Figure 29: SPI bus topology.
SPI signals on the TE0320 are listed and described in Table 7.
name |
definition |
description |
SPI_Q |
serial data output |
This output signal is used to transfer data serially out of the device. Data is shifted out on the falling edge of SPI_/C. |
SPI_D |
serial data input |
This input signal is used to transfer data serially into the device. It receives instructions, addresses, and the data to be programmed. Values are latched on the rising edge of SPI_/C |
SPI_/C |
serial clock |
This input signal provides the timing of the serial interface. Instructions, addresses, or data present at SPI_D are latched on the rising edge of SPI_/C. Data on SPI_Q changes after the falling edge of SPI_/C. |
SPI_/S |
chip select |
When this input signal is high, the device is disabled and SPI_Q is at high impedance (Z). |
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When this input signal is low, the device is enabled. |
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After power-up, a falling edge on SPI_/S is required prior to the start of any instruction to the Flash memory. |
Table 7: SPI signals summary.
SPI signal pin-out of the TE0320 is summarized in Table 8.
name |
FPGA ball |
JM5 pin |
SPI_Q |
AF24 |
18 |
SPI_D |
AB15 |
12 |
SPI_/C |
AE24 |
22 |
SPI_/S |
AA7 |
20 |
Table 8: SPI pin-out summary.
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SPI pins on B2B connector JM5 cannot be used as GPIOs (general purpose I/Os). |
The SPI bus can be used during configuration and operation in a plurality of ways as summarized respectively in Table 9 and Table 10. Any other usage of the SPI bus is neither supported nor recommended.