1 clock (clk) input, 2 output bus select (os) pin, 3 offset correct (oc) pin – Rainbow Electronics ADC10D020 User Manual

Applications Information

(Continued)

3.1 CLOCK (CLK) INPUT

The clock (CLK) input is common to both A/D converters.
This pin is CMOS/LVTTL compatible with a threshold of
about V

A

/2. Although the ADC10D020 is tested and its per-

formance is guaranteed with a 20 MHz clock, it typically will
function well with low-jitter clock frequencies from 1 MHz to
30 MHz. The clock source should be series terminated to
match the source impedance with the characteristic imped-
ance, Z

O

, of the clock line and the ADC clock pin should be

AC terminated, near the clock input, with a series RC to
ground. The resistor value should equal the characteristic
impedance, Z

O

, of the clock line and the capacitor should

have a value such that C x Z

O

≥

4 x t

PD

, where t

PD

is the time

of propagation of the clock signal from its source to the ADC
clock pin. The typical propagation rate on a board of FR4
material is about 150 ps/inch. The rise and fall times of the
clock supplied to the ADC clock pin should be no more than
2 ns. The analog inputs I = (I+) – (I−) and Q = (Q+) – (Q−)
are simultaneously sampled on the falling edge of this input
to ensure the best possible aperture delay match between
the two channels.

3.2 OUTPUT BUS SELECT (OS) PIN

The Output Bus Select (OS) pin determines whether the
ADC10D020 is in the parallel or multiplexed mode of opera-
tion. A logic high at this pin puts the device into the parallel
mode of operation where “I” and “Q” data appear at their
respective output buses. A logic low at this pin puts the
device into the multiplexed mode of operation where the “I”
and “Q” data are multiplexed onto the “I” output bus and the
“Q” output lines all remain at a logic low.

3.3 OFFSET CORRECT (OC) PIN

The Offset Correct (OC) pin is used to initiate an offset
correction sequence. This procedure should be done after
power up and need not be performed again unless power to
the ADC10D020 is interrupted. An independent offset cor-
rection sequence for each converter is initiated when there is
a low-to-high transition at the OC pin. This sequence takes
34 clock cycles to complete, during which time 32 conver-
sions are taken and averaged. The result is subtracted from
subsequent conversions. Because the offset correction is
performed digitally at the output of the ADC, the output range
of the ADC is reduced by the offset amount.

Each input pair should have a 0V differential voltage value
during this entire 34 clock period, but the “I” and “Q” input
common mode voltages do not have to be equal to each
other. Because of the uncertainty as to exactly when the
correction sequence starts, it is best to allow 35 clock peri-
ods for this sequence.

3.4 OUTPUT FORMAT (OF) PIN

The Output Format (OF) pin provides a choice of straight
binary or 2’s complement output formatting. With this pin at a
logic low, the output format is straight binary. With this pin at
a logic high, the output format is 2’s complement.

3.5 STANDBY (STBY) PIN

The Standby (STBY) pin may be used to put the
ADC10D020 into a low power mode where it consumes just
27 mW and can quickly be brought to full operation. The
device operates normally with a logic low on this and the PD
pins.

3.6 POWER DOWN (PD) PIN

The Power Down (PD) pin puts the device into a low-power
“sleep” state where it consumes less than 1 mW when the
PD pin is at a logic high. Power consumption is reduced
more when the PD pin is high than when the STBY pin is
high, but recovery to full operation is much quicker from the
standby state than it is from the power down state. When the
STBY and PD pins are both high, the ADC10D020 is in the
power down mode.

3.7 GAIN PIN

The GAIN pin sets the internal signal gain of the “I” and “Q”
inputs. With this pin at a logic low, the full scale differential
peak-to-peak input signal is equal to V

REF

. With the GAIN

pin at a logic high, the full scale differential peak-to-peak
input signal is equal to 2 times V

REF

.

4.0 INPUT/OUTPUT RELATIONSHIP ALTERNATIVES

The GAIN pin of the ADC10D020 offers input range selec-
tion, while the OF pin offers a choice of straight binary or 2’s
complement output formatting.

The relationship between the GAIN, OF, analog inputs and
the output code are as defined in

Table 1. Keep in mind that

the input signals must not exceed the power supply rails.

TABLE 1. ADC10D020 Input/Output Relationships

GAIN

OF

I+/Q+

I−/Q−

Output Code

0

0

V

CM

+ 0.25*V

REF

V

CM

− 0.25*V

REF

11 1111 1111

0

0

V

CM

V

CM

10 0000 0000

0

0

V

CM

− 0.25*V

REF

V

CM

+ 0.25*V

REF

00 0000 0000

0

1

V

CM

+ 0.25*V

REF

V

CM

− 0.25*V

REF

01 1111 1111

0

1

V

CM

V

CM

00 0000 0000

0

1

V

CM

− 0.25*V

REF

V

CM

+ 0.25*V

REF

10 0000 0000

1

0

V

CM

+ 0.5

*

V

REF

V

CM

− 0.5

*

V

REF

11 1111 1111

1

0

V

CM

V

CM

10 0000 0000

1

0

V

CM

− 0.5

*

V

REF

V

CM

+ 0.5

*

V

REF

00 0000 0000

1

1

V

CM

+ 0.5

*

V

REF

V

CM

− 0.5

*

V

REF

01 1111 1111

1

1

V

CM

V

CM

00 0000 0000

1

1

V

CM

− 0.5

*

V

REF

V

CM

+ 0.5

*

V

REF

10 0000 0000

ADC10D020

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