
6
LTC1410
PI FU CTIO S
UU
U
+AIN (Pin 1): Positive Analog Input, ±2.5V.
–AIN (Pin 2): Negative Analog Input, ±2.5V.
VREF (Pin 3): 2.50V Reference Output.
REFCOMP (Pin 4): 4.06V Reference Bypass Pin. By-
pass to AGND with 10
F tantalum in parallel with 0.1F
ceramic.
AGND (Pin 5): Analog Ground.
D11 to D4 (Pins 6 to 13): Three-State Data Outputs.
DGND (Pin 14): Digital Ground for Internal Logic. Tie to
AGND.
D3 to D0 (Pins 15 to 18): Three-State Data Outputs.
OGND (Pin 19): Digital Ground for Output Drivers. Tie
to AGND.
NAP/SLP (Pin 20): Power Shutdown Mode. Selects the
mode invoked by the SHDN pin. Low selects Sleep
mode and high selects quick wake-up Nap mode.
FU CTIO AL BLOCK DIAGRA
UU
W
12-BIT CAPACITIVE DAC
COMP
REF AMP
2k
2.5V REF
REFCOMP
(4V)
CSAMPLE
D11
D0
BUSY
CONTROL LOGIC
CS
CONVST RD
SHDN
INTERNAL
CLOCK
NAP/SLP
ZEROING SWITCHES
DVDD
VSS
AVDD
+AIN
–AIN
VREF
AGND
DGND
12
LTC1410 BD
+
–
SUCCESSIVE APPROXIMATION
REGISTER
OUTPUT LATCHES
SHDN (Pin 21): Power Shutdown Input. A low logic
level will invoke the Shutdown mode selected by the
NAP/SLP pin.
RD (Pin 22): Read Input. This enables the output
drivers when CS is low.
CONVST (Pin 23): Conversion Start Signal. This active
low signal starts a conversion on its falling edge.
CS (Pin 24): The Chip Select input must be low for the
ADC to recognize CONVST and RD inputs.
BUSY (Pin 25): The BUSY output shows the converter
status. It is low when a conversion is in progress. Data
valid on the rising edge of BUSY.
VSS (Pin 26): –5V Negative Supply. Bypass to AGND
with 10
F tantalum in parallel 0.1F ceramic.
DVDD (Pin 27): 5V Positive Supply. Short to Pin 28.
AVDD (Pin 28): 5V Positive Supply. Bypass to AGND
with 10
F tantalum in parallel with 0.1F ceramic.