8.2.1.2 Detailed Design Procedure
The design procedure for backplane and mid-plane applications is as follows:
- Determine the total number of channels on the board which require a DS280BR810 for signal conditioning. This will dictate the total number of DS280BR810 devices required for the board. It is generally recommended that channels with similar total insertion loss on the board be grouped together in the same DS280BR810 device. This will simplify the device settings, as similar loss channels generally utilize similar settings.
- Determine the maximum current draw required for all DS280BR810 devices. This may impact the selection of the regulator for the 2.5 V supply rail. To calculate the maximum current draw, multiply the maximum power supply current by the total number of DS280BR810 devices.
- Determine the SMBus address scheme needed to uniquely address each DS280BR810 device on the board, depending on the total number of devices identified in step 1. Each DS280BR810 can be strapped with one of 16 unique SMBus addresses. If there are more DS280BR810 devices on the board than the number of unique SMBus addresses which can be assigned, then use an I2C expander like the TCA/PCA family of I2C/SMBus switches and multiplexers to split the SMBus into multiple busses.
- Determine if the device will be configured from EEPROM (SMBus master mode) or from the system SMBus (SMBus slave mode).
- If SMBus master mode will be used, provisions should be made for an EEPROM on the board with 8-bit SMBus address 0xA0.
- If SMBus slave mode will be used for all device configurations, an EEPROM is not needed.
- Make provisions in the schematic and layout for standard decoupling capacitors between the device VDD supply and GND. Refer to Power Supply Recommendations for more information.
- If there is a need to potentially upgrade to a pin-compatible TI Retimer device, then make provisions in the schematic and layout for a 25 MHz (±100 ppm) single-ended CMOS clock. Each DS280BR810 buffers the clock on the CAL_CLK_IN pin and presents the buffered clock on the CAL_CLK_OUT pin. This allows multiple (up to 20) DS280BR810 calibration clocks to be daisy chained to avoid the need for multiple oscillators on the board. If the oscillator used on the board has a 2.5 V CMOS output, then no AC coupling capacitor or resistor ladder is required at the input to CAL_CLK_IN. No AC coupling or resistor ladder is needed between one DS280BR810 CAL_CLK_OUT output and the next DS280BR810’s CAL_CLK_IN input. The final DS280BR810’s CAL_CLK_OUT output can be left floating. A 25 MHz clock is not required for the DS280BR810, but it is good practice to provision for it in case there is a future plan to upgrade to a pin-compatible TI Retimer device.
- If there is a need to potentially upgrade to a pin-compatible TI Retimer device, then connect the INT_N pin to an FPGA or CPU for interrupt monitoring. Note that multiple INT_N outputs can be connected together. The common INT_N net should be pulled high to 2.5 V or 3.3 V. The INT_N pin on the DS280BR810 does not perform the interrupt functionality that the equivalent pin on the pin-compatible Retimer device does; however, it is good practice to provision for this in case there is a future plan to upgrade to a pin-compatible TI Retimer device.