Document #: 38-02097 Rev. *B Page 29 of 44
t
TREFDS
Transmit Data Set-up Time to REFCLKx - Full Rate
(TXRATEx = 0, TXCKSELx = 1)
2.4 ns
Transmit Data Set-up Time to REFCLKx - Half Rate
(TXRATEx = 1, TXCKSELx = 1)
2.3 ns
t
TREFDH
Transmit Data Hold Time from REFCLKx - Full Rate
(TXRATEx = 0, TXCKSELx = 1)
1.0 ns
Transmit Data Hold Time from REFCLKx - Half Rate
(TXRATEx = 1, TXCKSELx = 1)
1.6 ns
t
RREFDA
Receive Data Access Time to REFCLKx (RXCKSELx = 1) 9.7
[26]
ns
t
RREFDW
Receive Data Valid Time Window (RXCKSELx = 1) 10UI – 5.8 ns
t
REFxDV–
Received Data Valid Time to RXCLK when RXCKSELx = 1
(TXRATEx = 0, RXRATEx = 0)
10UI
[24 ]
– 6.16 ns
Received Data Valid Time to RXCLK when RXCKSELx = 1
(TXRATEx = 0, RXRATEx = 1)
5UI – 2.53
[27]
ns
Received Data Valid Time to RXCLK when RXCKSELx = 1 (TXRATEx = 1) 10UI – 5.86
[27]
ns
t
REFxDV+
Received Data Valid Time from RXCLK when RXCKSELx = 1
(TXRATEx = 0, RXRATEx = 0)
1.4 ns
Received Data Valid Time from RXCLK when RXCKSELx = 1
(TXRATEx = 0, RXRATEx = 1)
5UI – 1.83
[27]
ns
Received Data Valid Time from RXCLK when RXCKSELx = 1
(TXRATEx = 1)
1.0
[27]
ns
t
REFRX
[28]
REFCLKx Frequency Referenced to Received Clock Period –0.15 +0.15 %
CYV15G0404DXB Bus Configuration Write Timing Characteristics Over the Operating Range
t
DATAH
Bus Configuration Data Hold 0 ns
t
DATAS
Bus Configuration Data Setup 10 ns
t
WRENP
Bus Configuration WREN Pulse Width 10 ns
CYV15G0404DXB JTAG Test Clock Characteristics Over the Operating Range
f
TCLK
JTAG Test Clock Frequency 20 MHz
t
TCLK
JTAG Test Clock Period 50 ns
CYV15G0404DXB Device RESET Characteristics Over the Operating Range
t
RST
Device RESET Pulse Width 30 ns
CYV15G0404DXB Transmit Serial Outputs and TX PLL Characteristics Over the Operating Range
Parameter Description Condition Min. Max. Unit
t
B
Bit Time 5128 666 ps
Notes
26.Since this timing parameter is greater than the minimum time period of REFCLK it sets an upper limit to the frequency in which REFCLKx can be used to clock
the receive data out of the output register. For predictable timing, users can use this parameter only if REFCLK period is greater than sum of t
RREFDA
and set-up
time of the upstream device. When this condition is not true, RXCLKx± (a buffered or divided version of REFCLK when RXCKSELx = 1) could be used to clock
the receive data out of the device.
27.Measured using a 50% duty cycle reference clock
28.REFCLKx± has no phase or frequency relationship with the recovered clock(s) and only acts as a centering reference to reduce clock synchronization time.
REFCLKx± must be within ±1500 PPM (±0.15%) of the transmitter PLL reference (REFCLKx±) frequency. Although transmitting to a HOTLink II receiver neces-
sitates the frequency difference between the transmitter and receiver reference clocks to be within ±1500-PPM, the stability of the crystal needs to be within the
limits specified by the appropriate standard when transmitting to a remote receiver that is compliant to that standard. For example, to be IEEE 802.3z Gigabit
Ethernet compliant, the frequency stability of the crystal needs to be within ±100 PPM.l.
29.While sending continuous K28.5s, outputs loaded to a balanced 100Ω load, measured at the cross point of differential outputs, over the operating range.
30.While sending continuous K28.7s, after 100,000 samples measured at the cross point of differential outputs, time referenced to REFCLKx± input, over the
operating range.
31.Total jitter is calculated at an assumed BER of 1E -12. Hence: Total Jitter (tJ) = (tRJ * 14) + tDJ.
32.Also meets all Jitter Generation and Jitter Tolerance requirements as specified by SMPTE 259, SMPTE 292, ESCON, FICON, Fibre Channel, and DVB-ASI.
CYV15G0404DXB AC Electrical Characteristics (continued)
Parameter Description Min. Max Unit
[+] Feedback [+] Feedback
