ZHCSFZ0D December 2016 – December 2023 DAC38RF80 , DAC38RF83 , DAC38RF84 , DAC38RF85 , DAC38RF90 , DAC38RF93
PRODUCTION DATA
DAC38RFxx also provide a number of advanced diagnostic capabilities controlled by the IEEE 1500 interface. These are:
The SerDes blocks support the following IEEE1500 instructions:
INSTRUCTION | OPCODE | DESCRIPTION |
---|---|---|
ws_bypass | 0x00 | Bypass. Selects a 1-bit bypass data register. Use when accessing other macros on the same IEEE1500 scan chain. |
ws_cfg | 0x35 | Configuration. Write protection options for other instructions. |
ws_core | 0x30 | Core. Fields also accessible through dedicated core-side ports. |
ws_tuning | 0x31 | Tuning. Fields for fine tuning macro performance. |
ws_debug | 0x32 | Debug. Fields for advanced control, manufacturing test, silicon characterization and debug. |
ws_unshadowed | 0x34 | Unshadowed. Fields for silicon characterization. |
ws_char | 0x33 | Char. Fields used for eye scan. |
The data for each SerDes instruction is formed by chaining together sub-components called head, body (receiver or transmitter) and tail. DAC38RFxx uses two SerDes receiver blocks R0 and R1, each of which contains 4 receive lanes (channels), the data for each IEEE1500 instruction is formed by chaining {head, receive lane 0, receive lane 1, receive lane 2, receive lane 3, tail}. A description of bits in head, body and tail for each instruction is given as follows:
All multi-bit signals in each chain are packed with bits reversed for example, mpy[7:0] in ws_core head subchain is packed as {retime, enpll, mpy[0:7], vrange, lb[0:1]}. All DATA REGISTER READS from SerDes Block R0 should read 1 bit more than the desired number of bits and discard the first bit received on TDO for example,, to read 40-bit data from R0 block, 41 bits should be read off from TDO and the first bit received should be discarded. Similarly, any data written to SerDes Block R0 Data Registers should be prefixed with an extra 0.
FIELD | DESCRIPTION |
---|---|
HEAD (STARTING FROM THE MSB OF CHAIN) | |
RETIME | No function. |
CORE_WE | Core chain write enable. |
RECEIVER (FOR EACH LANE 0, 1, 2, 3) | |
CORE_WE | Core chain write enable. |
TUNING_WE | Tuning chain write enable. |
DEBUG_WE | Reserved. |
CHAR_WE | Char chain write enable. |
UNSHADOWED_WE | Reserved. |
TAIL (ENDING WITH THE LSB OF CHAIN) | |
CORE_WE | Core chain write enable. |
TUNING_WE | Tuning chain write enable. |
DEBUG_WE | Reserved. |
RETIME | No function. |
CHAIN LENGTH = 26 BITS |
FIELD | DESCRIPTION |
---|---|
HEAD (STARTING FROM THE MSB OF CHAIN) | |
RETIME | No function. |
ENPLL | PLL enable. |
MPY[7:0] | PLL multiply. |
VRANGE | VCO range. |
ENDIVCLK | Enable DIVCLK output |
LB[1:0] | Loop bandwidth |
RECEIVER (FOR EACH LANE 0,1,2,3) | |
ENRX | Receiver enable. |
SLEEPRX | Receiver sleep mode. |
BUSWIDTH[2:0] | Bus width. |
RATE[1:0] | Operating rate. |
INVPAIR | Invert polarity. |
TERM[2:0] | Termination. |
ALIGN[1:0] | Symbol alignment. |
LOS[2:0] | Loss of signal enable. |
CDR[2:0] | Clock/data recovery. |
EQ[2:0] | Equalizer. |
EQHLD | Equalizer hold. |
ENOC | Offset compensation. |
LOOPBACK[1:0] | Loopback. |
BSINRXP | Boundary scan initialization. |
BSINRXN | Boundary scan initialization. |
RESERVED | Reserved. |
Testpatt[2:0] | Test pattern selection. |
TESTFAIL | Test failure (real time). |
LOSTDTCT | Loss of signal detected (real time). |
BSRXP | Boundary scan data. |
BSRXN | Boundary scan data. |
OCIP | Offset compensation in progress. |
EQOVER | Receiver signal over equalized. |
EQUNDER | Receiver signal under equalized. |
LOSTDTCT | Loss of signal detected (sticky). |
SYNC | Re-alignment done, or aligned comma output (sticky). |
RETIME | No function. |
TAIL (ENDING WITH THE LSB CHAIN) | |
CLKBYP[1:0] | Clock bypass. |
SLEEPPLL | PLL sleep mode. |
RESERVED | Reserved. |
LOCK | PLL lock (real time). |
BSINITCLK | Boundary scan initialization clock. |
ENBSTX | Enable TX boundary scan. |
ENBSRX | Enable RX boundary scan. |
ENBSPT | RX pulse boundary scan. |
RESERVED | Reserved. |
NEARLOCK | PLL near to lock. |
UNLOCK | PLL lock (sticky). |
CFG OVR | Configuration over-ride. |
RETIME | No function. |
CHAIN LENGTH = 196 BITS |
FIELD | DESCRIPTION |
---|---|
HEAD (STARTING FROM THE MSB OF CHAIN) | |
RETIME | No function. |
RECEIVER (FOR EACH LANE 0,1,2,3) | |
PATTERRTHR[2:0] | Resync error threshold. |
PATT TIMER | PRBS timer. |
RXDSEL[3:0] | Status select. |
ENCOR | Enable clear-on-read for error counter. |
EQZERO[4:0] | EQZ OVRi Equalizer zero. |
EQZ OVR | Equalizer zero over-ride. |
EQLEVEL[15:0] | EQ OVRi Equalizer gain observe or set. |
EQ OVR | Equalizer over-ride. |
EQBOOST[1:0] | Equalizer gain boost. |
RXASEL[2:0] | Selects amux output. |
TAIL (ENDING WITH THE LSB CHAIN) | |
ASEL[3:0] | Selects amux output. |
USR PATT[19:0] | User-defined test pattern. |
RETIME | No function. |
CHAIN LENGTH = 174 BITS |
FIELD | DESCRIPTION |
---|---|
HEAD (STARTING FROM THE MSB OF CHAIN) | |
RETIME | No function. |
RECEIVER (FOR EACH LANE 0,1,2,3) | |
TESTFAIL | Test failure (sticky). |
ECOUNT[11:0] | Error counter. |
ESWORD[7:0] | Eye scan word masking. |
ES[3:0] | Eye scan. |
ESPO[6:0] | Eye scan phase offset. |
ES BIT SELECT[4:0] | Eye scan compare bit select. |
ESVO[5:0] | Eye scan voltage offset. |
ESVO OVR | Eye scan voltage offset override. |
ESLEN[1:0] | Eye scan run length. |
ESRUN | Eye scan run. |
ESDONE | Eye scan done. |
TAIL (ENDING WITH THE LSB CHAIN) | |
RETIME | No function. |
CHAIN LENGTH = 194 BITS |