Electrical characteristics (continued) – Rainbow Electronics MAX1183 User Manual

MAX1183

Dual 10-Bit, 40Msps, +3V, Low-Power ADC with

Internal Reference and Parallel Outputs

_______________________________________________________________________________________

3

ELECTRICAL CHARACTERISTICS (continued)

(V

DD

= +3V, OV

DD

= +2.5V, 0.1µF and 1.0µF capacitors from REFP, REFN, and COM to GND, REFOUT connected to REFIN through

a 10k

Ω resistor, V

IN

= 2Vp-p (differential with respect to COM), C

L

= 10pF at digital outputs (Note 5), f

CLK

= 40MHz, T

A

= T

MIN

to

T

MAX

, unless otherwise noted. Typical values are at T

A

= +25°C.)

PARAMETER

SYMBOL

CONDITIONS

MIN

TYP

MAX

UNITS

Small-Signal Bandwidth

Input at -20dB FS, differential inputs

500

MHz

Full-Power Bandwidth

FPBW

Input at -0.5dB FS, differential inputs

400

MHz

Aperture Delay

t

AD

1

ns

Aperture Jitter

t

AJ

2

ps

RMS

Overdrive Recovery Time

For 1.5 x full-scale input

2

ns

Differential Gain

±1

%

Differential Phase

±0.25

Degrees

Output Noise

INA+ = INA- = INB+ = INB- = COM

0.2

LSB

RMS

INTERNAL REFERENCE

Reference Output Voltage

REFOUT

2.048

±3%

V

Reference Temperature
Coefficient

TC

REF

60

ppm/

°C

Load Regulation

1.25

mV/mA

BUFFERED EXTERNAL REFERENCE (V

REFIN

= +2.048V)

REFIN Input Voltage

V

REFIN

2.048

V

Positive Reference Output
Voltage

V

REFP

2.012

V

Negative Reference Output
Voltage

V

REFN

0.988

V

Differential Reference Output
Voltage Range

∆V

REF

∆V

REF

= V

REFP

- V

REFN

0.98

1.024

1.07

V

REFIN Resistance

R

REFIN

>50

M

Ω

Maximum REFP, COM
Source Current

I

SOURCE

5

mA

Maximum REFP, COM
Sink Current

I

SINK

-250

µA

Maximum REFN Source Current

I

SOURCE

250

µA

Maximum REFN Sink Current

I

SINK

-5

mA

UNBUFFERED EXTERNAL REFERENCE (V

REFIN

= AGND, reference voltage applied to REFP, REFN, and COM)

REFP, REFN Input Resistance

R

REFP

,

R

REFN

Measured between REFP and COM and
REFN and COM

4

k

Ω

Differential Reference Input
Voltage Range

∆V

REF

∆V

REF

= V

REFP

- V

REFN

1.024

±10%

V

COM Input Voltage Range

V

COM

V

DD

/2

±10%

V

REFP Input Voltage

V

REFP

V

COM

+

∆V

REF

/2

V

REFN Input Voltage

V

REFN

V

COM

-

∆V

REF

/2

V