LTC1090CN Linear Technology, LTC1090CN Datasheet - Page 21
LTC1090CN
Manufacturer Part Number
LTC1090CN
Description
IC DATA ACQUIS SYS 10BIT 20-DIP
Manufacturer
Linear Technology
Type
Data Acquisition System (DAS), ADCr
Datasheet
1.LTC1090CNPBF.pdf
(28 pages)
Specifications of LTC1090CN
Resolution (bits)
10 b
Sampling Rate (per Second)
30k
Data Interface
Serial
Voltage Supply Source
Dual ±
Voltage - Supply
5V
Operating Temperature
-40°C ~ 85°C
Mounting Type
Through Hole
Package / Case
20-DIP (0.300", 7.62mm)
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
Available stocks
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APPLICATIO S I FOR ATIO
MUX address bit is shifted in and continues during the
remainder of the data transfer. On the falling edge of the
final SCLK, the S&H goes into hold mode and the conver-
sion begins. The voltage will be held on either the 8th,
10th, 12th or 16th falling edge of the SCLK depending on
the word length selected.
Differential Inputs
With differential inputs or when the COM pin is not tied to
ground, the A/D no longer converts just a single voltage
but rather the difference between two voltages. In these
cases, the voltage on the selected “+” input is still sampled
and held and therefore may be rapidly time varying just as
in single ended mode. However, the voltage on the se-
lected “–” input must remain constant and be free of noise
and ripple throughout the conversion time. Otherwise, the
differencing operation may not be performed accurately.
The conversion time is 44 ACLK cycles. Therefore, a
change in the “–” input voltage during this interval can
“–” input this error would be:
Where f(“–”) is the frequency of the “–” input voltage,
V
the ACLK. In most cases V
a 60Hz signal on the “–” input to generate a 1/4LSB error
(1.25mV) with the converter running at ACLK = 2MHz, its
peak value would have to be 150mV.
5. Reference Inputs
The voltage between the reference inputs of the LTC1090
defines the voltage span of the A/D converter. The refer-
ence inputs look primarily like a 10kΩ resistor but will
have transient capacitive switching currents due to the
switched capacitor conversion technique (see Figure 14).
During each bit test of the conversion (every 4 ACLK
cycles), a capacitive current spike will be generated on the
reference pins by the A/D. These current spikes settle
quickly and do not cause a problem. However, if slow
settling circuitry is used to drive the reference inputs, care
must be taken to insure that transients caused by these
current spikes settle completely during each bit test of the
conversion.
PEAK
V
ERROR (MAX)
is its peak amplitude and f
= V
U
PEAK
x 2 x π x f(“–”) x 44/f
U
ERROR
will not be significant. For
ACLK
W
is the frequency of
U
ACLK
When driving the reference inputs, three things should be
kept in mind:
1. The source resistance (R
2. Transients on the reference inputs caused by the
3. It is recommended that the REF
inputs should be low (less than 1Ω) to prevent DC
drops caused by the 1mA maximum reference current
(I
capacitive switching currents must settle completely
during each bit test (each 4 ACLK cycles). Figures 15
and 16 show examples of both adequate and poor
settling. Using a slower ACLK will allow more time for
the reference to settle. However, even at the maximum
ACLK rate of 2MHz most references and op amps can
be made to settle within the 2µs bit time.
to the analog ground plane. If REF
other than ground, the voltage must not change during
a conversion cycle. This voltage must also be free of
noise and ripple with respect to analog ground.
REF
R
V
OUT
).
REF
Figure 14. Reference Input Equivalent Circuit
Figure 15. Adequate Reference Settling
REF
REF
14
13
+
–
HORIZONTAL: 1µs/DIV
10k
TYP
OUT
) driving the reference
LTC1090
–
EVERY 4 ACLK CYCLES
–
input be tied directly
is biased at a voltage
R
ON
LTC1090
5pF – 30pF
LTC1090 • AI19
21
1090fc
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