ADC-304-3 데이터 시트보기 (PDF) - DATEL Data Acquisition products

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ADC-304-3

8-Bit, 20MHz, Low-Power Flash A/D Converters

DATEL Data Acquisition products  

ADC-304

®

®

ABSOLUTE MAXIMUM RATINGS

PARAMETERS

LIMITS

UNITS

Supply Voltages

+VS to GND

0 to +6

Volts

–VS to GND

0 to –6

Volts

Input Voltage (Analog) Vin

–VS to (ANA GND + 0.3) Volts

(dual power supply)

Input Voltage (Reference) VT, VB, VM

–VS to (ANA GND + 0.3) Volts

(dual power supply)

‚ VT – VB ‚

2.5

Volts

Input Current

IM

–3.0 to +3.0

mA

Input Voltage (Digital) Digital Inputs

–0.5 to +VS

Volts

FUNCTIONAL SPECIFICATIONS

Unless otherwise noted, the following specifications apply to the ADC-304 when used

either with a single or dual power source. The test conditions are:

For single power supply operation:

+VS = +5V, DIG GND = 0V

–VS = 0V, VT = +5V

VB = +3V, TA = +25°C

ANA GND = +5V, fs = 20MHz

For dual power supply operation:

+VS = +5V, DIG GND = 0V

–VS = –5.2V, VT = 0V,

VB = –2V, TA = +25°C

ANA GND = 0V, fs = 20MHz

ANALOG INPUTS

MIN. TYP. MAX. UNITS

Input Range

Input Capacitance

Input Bias Current

Offset Voltage

VT

VB

VB

VT

Volts

—

30

35

pF

15

50

100

µA

–8

–13

–19

mV

0

+5

+11

mV

DIGITAL INPUTS

Logic Levels

Logic “1”

Logic “0”

Logic Input Currents

Logic “1”

Logic “0”

+2.0

—

—

Volts

—

—

+0.8

Volts

—

–100

–150

µA

–0.1

–0.32

–0.5

mA

PERFORMANCE

Conversion Rate Œ

20

—

—

MHz

Integral Nonlinearity

—

—

±1/2

LSB

Differential Nonlinearity

—

—

±1/2

LSB

Differential Gain Error 

—

—

1.5

%

Differential Phase Error 

—

—

0.5 degrees

Aperture Delay Ta

5

7

9

ns

Aperture Uncertainty

—

30

—

ps

Signal-to-Noise and Distortion

(Vin = full scale, fs = 20MHz)

fin = 1MHz

47

dB

fin = 5MHz

43

dB

fin = 10MHz

35

dB

Clock Pulse Width

Tpw1

35

—

—

ns

Tpw0

10

—

—

ns

Reference Pin Current

11

15

18

mA

Reference Resistance (VT to VB)

—

130

—

Ohms

Reference Input (dual supply)

VT

–0.1

0

+0.1

Volts

VB

–1.8

–2.0

–2.2

Volts

Footnotes:

Πfin = 1kHz, ramp

 NTSC 40 IRE-modulated ramp, fs = 14.3MHz

DIGITAL OUTPUTS

Resolution and Output Coding

Logic Levels

Logic “1”

Logic “0”

Logic Loading “1”

Logic Loading “0”

Output Data Delay

TDLH

TDHL

MIN. TYP. MAX. UNITS

8

bits

Straight binary

Complementary binary

Two’s complement

Complementary two’s complement

+2.7

+3.4

—

Volts

—

—

+0.5

Volts

—

–500

—

µA

—

—

+3

mA

15

20

30

ns

22

26

35

ns

POWER REQUIREMENTS

Single Power Supply

Supply Voltage = +VS

Supply Voltage = –VS

Supply Current = +IS

Power Dissipation

Dual Power Supply

Supply Voltage = +VS

Supply Voltage = –VS

Supply Current = +IS

Supply Current = –IS

Power Dissipation

+4.75

+5.0

+5.25

Volts

—

0

—

Volts

+56

+71

+91

mA

280

355

455

mW

+4.75

+5.0

+5.25

Volts

–4.75

–5.2

–5.5

Volts

+7

+10

+14

mA

–50

–62

–78

mA

295

375

476

mW

PHYSICAL/ENVIRONMENTAL

Operating Temperature

Storage Temperature

–20

—

+75

°C

–55

—

+150

°C

TECHNICAL NOTES

1. The two DIGITAL GND pins (pins 5 and 11 on the DIP, pins

12 and 18 on the SOP) are not connected to each other

internally and neither are the two +5V POWER pins (6 and

10 on the DIP, 13 and 17 on the SOP). All four pins must be

externally connected to the appropriate pcb patterns. Also,

the DIGITAL GND and ANALOG GND pins are not

connected to each other internally.

2. Layout of the analog and digital sections should be

separated to reduce interference from noise. To further

guard against unwanted noise, it is recommended to

bypass, as close as possible, the voltage supply pins to

their respective ground pins with 1µF tantalum and 0.01µF

ceramic disk capacitors in parallel.

3. The input capacitance of the analog input is much smaller

than that of a typical flash A/D converter. It is necessary to

use an amplifier with sufficient bandwidth and driving power.

The analog input pins are separated internally, so they

should be connected together externally. If the ADC-304 is

driven with a low output impedance amplifier, parasitic

oscillations may occur.

These parasitic oscillations can be prevented by introducing

a small resistance of 2 to 10Ω between the amplifier output

and the ADC-304’s A/D input. This resistance must have a

very low value of series inductance at high frequencies.

Note that each of the analog input pins is divided in this

manner with these resistances. Connect the driving amplifier

as close as possible to the A/D input of the ADC-304.

2

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