LTC1096/LTC1096L
LTC1098/LTC1098L
16
10968fc
The wake-up time is inherently provided for the LTC1098(L)
with setup time = 1μs (see Figure 2).
Data Transfer
The CLK synchronizes the data transfer with each bit being
transmitted on the falling CLK edge and captured on the
rising CLK edge in both transmitting and receiving sys-
tems. The LTC1098(L) fi rst receives input data and then
transmits back the A/D conversion result (half duplex).
Because of the half duplex operation, D
IN
and D
OUT
may
be tied together allowing transmission over just three
wires: CS, CLK and DATA (D
IN
/D
OUT
).
Data transfer is initiated by a falling chip select (CS) signal.
After CS falls the LTC1098(L) looks for a start bit. After the
start bit is received, the 3-bit input word is shifted into the
D
IN
input which confi gures the LTC1098(L) and starts the
conversion. After one null bit, the result of the conversion
Figure 1. LTC1096(L) Operating Sequence
is output on the D
OUT
line. At the end of the data exchange
CS should be brought high. This resets the LTC1098(L) in
preparation for the next data exchange.
The LTC1096(L) does not require a confi guration input
word and has no D
IN
pin. A falling CS initiates data trans-
feras shown in the LTC1096(L) operating sequence. After
CS falls, the fi rst CLK pulse enables D
OUT
. After one null
bit, the A/D conversion result is output on the D
OUT
line.
Bringing CS high resets the LTC1096(L) for the next data
exchange.
CLK
t
CYC
CS
B7*B6B5
B4
B3
B2B1
B0
B1
B2
B3B4B5
B6
B7
NULL
BIT
Hi-Z
D
OUT
10968 F01
POWER
DOWN
Hi-Z
t
suCS
t
WAKEUP
t
CONV
CLK
CS
t
CYC
POWER
DOWN
t
WAKEUP
B0
B1
B2
B3
B4B5
B6B7
Hi-Z
D
OUT
t
CONV
HI-Z
t
suCS
NULL
BIT
*AFTER COMPLETING THE DATA TRANSFER, IF FURTHER CLOCKS ARE APPLIED WITH CS LOW, THE ADC WILL OUTPUT ZEROS INDEFINITELY.
(MSB)
(MSB)
APPLICATIONS INFORMATION
D
IN
1 D
IN
2
D
OUT
1 D
OUT
2
CS
SHIFT MUX
ADDRESS IN
1 NULL BIT
SHIFT A/D CONVERSION
RESULT OUT
10968 AI01