Datasheet
LTC1096/LTC1096L
LTC1098/LTC1098L
23
10968fc
capacitive current spike will be generated on the reference
pin by the ADC. These current spikes settle quickly and do
not cause a problem.
Using a slower CLK will allow more time for the reference
to settle. Even at the maximum CLK rate of 500kHz most
references and op amps can be made to settle within the
Large external source resistors and capacitances will slow
the settling of the inputs. It is important that the overall
RC time constants be short enough to allow the analog
inputs to completely settle within the allowed time.
RC Input Filtering
It is possible to fi lter the inputs with an RC network as
shown in Figure 9. For large values of C
F
(e.g., 1μF), the
capacitive input switching currents are averaged into a
net DC current. Therefore, a fi lter should be chosen with
a small resistor and large capacitor to prevent DC drops
across the resistor. The magnitude of the DC current is
approximately I
DC
= 25pF(V
IN
/t
CYC
) and is roughly pro-
portional to V
IN
. When running at the minimum cycle time
of 29μs, the input current equals 4.3μA at V
IN
= 5V. In this
case, a fi lter resistor of 390Ω will cause 0.1LSB of full-
scale error. If a larger fi lter resistor must be used, errors
can be eliminated by increasing the cycle time.
Figure 9. RC Input Filtering
Input Leakage Current
Input leakage currents can also create errors if the source
resistance gets too large. For instance, the maximum input
leakage specifi cation of 1μA (at 125°C) fl owing through a
source resistance of 3.9k will cause a voltage drop of 3.9mV
or 0.2LSB. This error will be much reduced at lower tem-
peratures because leakage drops rapidly (see typical curve
of Input Channel Leakage Current vs Temperature).
REFERENCE INPUTS
The voltage on the reference input of the LTC1096 defi nes
the voltage span of the A/D converter. The reference
input transient capacitive switching currents due to the
switched-capacitor conversion technique (see Figure 10).
During
each bit test of the conversion (every CLK cycle), a
Figure 10. Reference Input Equivalent Circuit
2μs bit time.
Reduced Reference Operation
The minimum reference voltage of the LTC1098 is limited
to 3V because the V
CC
supply and reference are internally
tied together. However, the LTC1096 can operate with
reference voltages below 1V.
The effective resolution of the LTC1096 can be increased
by reducing the input span of the converter. The LTC1096
exhibits good linearity and gain over a wide range of ref-
erence voltages (see typical curves of Linearity and Full
Scale Error vs Reference Voltage). However, care must be
taken when operating at low values of V
REF
because of the
reduced LSB step size and the resulting higher accuracy
requirement placed on the converter. The following factors
must be considered when operating at low V
REF
values.
1. Offset
2. Noise
3. Conversion speed (CLK frequency)
Offset with Reduced V
REF
The offset of the LTC1096 has a larger effect on the output
code when the ADC is operated with reduced reference
voltage. The offset (which is typically a fi xed voltage)
becomes a larger fraction of an LSB as the size of the
LSB is reduced. The typical curve of Unadjusted Offset
Error vs Reference Voltage shows how offset in LSBs is
APPLICATIONS INFORMATION
R
FILTER
V
IN
C
FILTER
10968 F09
LTC1098
“+”
“–”
I
DC
R
ON
5pF TO 30pF
LTC1096
REF
+
R
OUT
V
REF
EVERY CLK CYCLE
5
4
GND
10968 F10