User guide
CS5509
DS125F3 7
Notes: 16. If CS is activated asynchronously to DRDY, CS will not be recognized if it occurs when DRDY is high
for 2 clock cycles. The propagation delay time may be as great as 2 f
clk
cycles plus 200 ns. To guarantee
proper clocking of SDATA when using asynchronous CS
, SCLK(i) should not be taken high sooner than
2 f
clk
+ 200 ns after CS goes low.
17. SDATA transitions on the falling edge of SCLK. Note that a rising SCLK must occur to enable the serial
port shifting mechanism before falling edges can be recognized.
18. If CS
is returned high before all data bits are output, the SDATA output will complete the current data
bit and then go to high impedance.
5V SWITCHING CHARACTERISTICS (T
A
= 25 °C; VA+, VD+ = 5V ±5%; Input Levels: Logic 0 =
0V, Logic 1 = VD+; C
L
= 50 pF) (Note 2)
Parameter Symbol Min Typ Max Unit
Serial Clock
f
sclk
0-2.5MHz
Serial Clock Pulse Width High
Pulse Width Low
t
ph
t
pl
200
200
-
-
-
-
ns
ns
Access Time CS
Low to data valid (Note 16)
t
csd
-60200ns
Maximum Delay Time (Note 17)
SCLK falling to new SDATA bit
t
dd
-150310ns
Output Float Delay CS
High to output Hi-Z (Note 18)
SCLK falling to Hi-Z
t
fd1
t
fd2
-
-
60
160
150
300
ns
ns
3.3V SWITCHING CHARACTERISTICS (T
A
= 25 °C; VA+ = 5V ±5%; VD+ = 3.3V ±5%; Input
Levels: Logic 0 = 0V, Logic 1 = VD+; C
L
= 50 pF) (Note 2)
Parameter Symbol Min Typ Max Unit
Serial Clock
f
sclk
0 - 1.25 MHz
Serial Clock Pulse Width High
Pulse Width Low
t
ph
t
pl
200
200
-
-
-
-
ns
ns
Access Time CS
Low to data valid (Note 16)
t
csd
-100200ns
Maximum Delay Time (Note 17)
SCLK falling to new SDATA bit
t
dd
-400600ns
Output Float Delay CS
High to output Hi-Z (Note 18)
SCLK falling to Hi-Z
t
fd1
t
fd2
-
-
70
320
150
500
ns
ns