Max1195 – Rainbow Electronics MAX1195 User Manual

MAX1195

quadrature outputs, a local oscillator followed by sub-
sequent upconversion can generate the QAM signal.
The result is an in-phase (I) and a quadrature (Q) carri-
er component, where the Q component is 90° phase
shifted with respect to the in-phase component. At the
receiver, the QAM signal is divided down into its I and
Q components, essentially representing the modulation
process reversed. Figure 10 displays the demodulation
process performed in the analog domain, using the
dual matched 3V, 8-bit ADC MAX1195 and the
MAX2451 quadrature demodulator to recover and digi-

tize the I and Q baseband signals. Before being digi-
tized by the MAX1195, the mixed-down signal compo-
nents may be filtered by matched analog filters, such
as Nyquist or pulse-shaping filters which remove
unwanted images from the mixing process, thereby
enhancing the overall signal-to-noise (SNR) perfor-
mance and minimizing intersymbol interference.

Dual, 8-Bit, 40Msps, 3V, Low-Power ADC with
Internal Reference and Parallel Outputs

18

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1/4 MAX4252

MAX6066

1/4 MAX4252

1/4 MAX4252

1.47k

Ω

21.5k

Ω

21.5k

Ω

21.5k

Ω

21.5k

Ω

21.5k

Ω

47k

Ω

3.3V

3.3V

11

2

2

3

4

1

1

REFOUT

REFP

REFIN

1

µF

10

µF

6V

MAX1195

N = 1

REFN

29

N.C.

N.C.

31

32

1

2

29

31

32

1

2

COM

REFOUT

NOTE: ONE FRONT-END REFERENCE CIRCUIT DESIGN MAY BE USED WITH UP TO 32 ADCs.

REFP

REFIN

MAX1195

N = 32

REFN

COM

2.0V AT 8mA

3

0.1

µF

0.1

µF

MAX4254 POWER SUPPLY
BYPASSING. PLACE CAPACITOR
AS CLOSE AS POSSIBLE TO
THE OP AMP.

3.3V

1.47k

Ω

47k

Ω

3.3V

1.5V

11

6

5

4

7

10

µF

6V

1.5V AT 0mA

1.47k

Ω

47k

Ω

3.3V

11

9

10

4

8

10

µF

6V

0.1

µF

0.1

µF

0.1

µF

0.1

µF

0.1

µF

2.2

µF

10V

0.1

µF

0.1

µF

1.0V AT -8mA

330

µF

6V

330

µF

6V

330

µF

6V

2.0V

1.0V

Figure 9. External Unbuffered Reference Drive with MAX4252 and MAX6066