Detailed description, Pin description, Table 1. input amplifier programming – Rainbow Electronics MAX1011 User Manual

_______________Detailed Description

Converter Operation

The MAX1011 integrates a 6-bit analog-to-digital con-
verter (ADC), a buffered voltage reference, and oscilla-
tor circuitry. The ADC uses a flash conversion technique
to convert an analog input signal into a 6-bit parallel
digital output code. The MAX1011’s unique design
includes 63 fully differential comparators and a propri-
etary encoding scheme that ensures no more than
1LSB dynamic encoding error. The control logic inter-
faces easily to most digital signal processors (DSPs)
and microprocessors (µPs) with +3.3V CMOS-compati-
ble logic interfaces. Figure 1 shows the MAX1011 in a
typical application.

Programmable Input Amplifier

The MAX1011 has a programmable-gain input amplifier
with a -0.5dB bandwidth of 55MHz and a true differen-
tial input. To maximize performance in high-speed
systems, the amplifier has less than 3pF of input
capacitance. The input amplifier gain is programmed
via the GAIN pin to provide three possible input full-
scale ranges (FSRs) as shown in Table 1.

Single-ended and differential AC-coupled input circuit
examples are shown in Figures 2 and 3. Each of the

MAX1011

Low-Power, 90Msps, 6-Bit ADC

_______________________________________________________________________________________

5

Pin Description

PIN

Gain-Select Input. Sets input full-scale range: 125/250/500mVp-p (Table 1).

GAIN

1

FUNCTION

NAME

Positive Offset-Correction Compensation. Connect a 0.22µF capacitor for AC-coupled inputs. Ground
pin 2 for DC-coupled inputs.

OCC+

2

Noninverting Analog Input

IN+

4

Negative Offset-Correction Compensation. Connect a 0.22µF capacitor for AC-coupled inputs. Ground
pin 3 for DC-coupled inputs.

OCC-

3

+5V ±5% Supply. Bypass with a 0.01µF capacitor to GND (pin 9).

V

CC

6

Analog Ground

GND

9, 10,

12, 13

Inverting Analog Input

IN-

5

+5V ±5% Supply. Bypass with a 0.01µF capacitor to GND (pin 10).

V

CC

11

Digital Clock Output. Frames the output data.

DCLK

18

Digital Output Supply, +3.3V ±300mV. Bypass with a 47pF capacitor to OGND (pin 16).

V

CCO

17

Digital Outputs 0–5. D5 is the most significant bit (MSB).

D0–D5

19–24

250

Open

125

V

CC

GAIN

500

GND

INPUT FULL-SCALE RANGE

(mVp-p)

Table 1. Input Amplifier Programming

Positive Oscillator/Clock Input

TNK+

7

Negative Oscillator/Clock Input

TNK-

8

No Connection

N.C.

15

Digital Output Ground

OGND

16

+5V ±5% Supply. Bypass with a 0.01µF capacitor to GND (pin 13).

V

CC

14