CY28401
No Input Clock
S2
S1
Delay
>0.25ms
Wait for Input
Clock &
PWRDWN# De-
assertion
PWRDWN# Asserted
S0
Power Off
S3
Normal
Operation
Figure 3. Buffer Power-up State Diagram
SRC_STOP# Clarification
The SRC_STOP# signal is an active LOW input used for clean
stopping and starting the DIFT/C outputs (valid clock must be
present on SRCT/C_IN). The SRC_STOP# signal is a
debounced signal in that its state must remain unchanged
during two consecutive rising edges of DIFC to be recognized
as a valid assertion or deassertion. (The assertion and
deassertion of this signal is absolutely asynchronous.)
Table 5. SRC_STOP# Functionality
[6]
SRC_STOP#
1
0
DIFT
Normal
Iref * 6 or Float
DIFC
Normal
Low
transition. When the control register SRC_STOP# three-state
bit is programmed to ‘0’, the final state of all stopped DIFT/C
signals is DIFT clock = HIGH and DIFC = LOW. There will be
no change to the output drive current values, DIFT will be
driven HIGH with a current value equal 6 x Iref, and DIFC will
not be driven. When the control register SRC_STOP#
three-state bit is programmed to ‘1’, the final state of all
stopped DIF signals is LOW, both DIFT clock and DIFC clock
outputs will not be driven.
SRC_STOP# Deassertion
All differential outputs that were stopped will resume normal
operation in a glitch-free manner. The maximum latency from
the deassertion to active outputs is between 2-6 DIFT/C clock
periods (2 clocks are shown) with all DIFT/C outputs resuming
simultaneously. If the control register three-state bit is
programmed to ‘1’ (three-state), then all stopped DIFT outputs
will be driven high within 10 ns of SRC_STOP# deassertion to
a voltage greater than 200 mV.
SRC_STOP# Assertion
The impact of asserting the SRC_STOP# pin is that all DIF
outputs that are set in the control registers to stoppable via
assertion of SRC_STOP# are stopped after their next
1mS
SRC_STOP#
PWRDWN#
DIFT(Free Running
DIFC(Free Running
DIFT (Stoppable)
DIFC (Stoppable)
Figure 4. SRC_STOP# = Driven, PWRDWN# = Driven
Note:
6. In the case where OE is asserted LOW, the output will always be three-stated regardless of SRC_STOP# drive mode register bit state.
Rev 1.0, November 21, 2006
Page 7 of 13