ADC-318A Murata Power Solutions, ADC-318A Datasheet - Page 4

ADC-318A

Manufacturer Part Number

ADC-318A

Description

Analog to Digital Converters - ADC Analog to Digital Converter

Manufacturer

Murata Power Solutions

Datasheet

1.ADC-318A.pdf (8 pages)

Specifications of ADC-318A

Product Category

Analog to Digital Converters - ADC

Number Of Channels

Architecture

Flash

Conversion Rate

100 MHz

Resolution

8 bit

Input Type

Single-Ended

Snr

46 dB

Interface Type

Parallel

Operating Supply Voltage

+/- 5 V, + 5 V

Maximum Operating Temperature

+ 75 C

Mounting Style

SMD/SMT

Package / Case

QFP-48

Maximum Power Dissipation

960 mW

Minimum Operating Temperature

- 20 C

Number Of Converters

Voltage Reference

External

Available stocks

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Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

ADC-318A

Manufacturer:

ADI

Quantity:

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DATEL

5. The ADC-318 and ADC-318A have resistor matrix taps at

6. A/D CLK input and RSET/RSET inputs are TTL or ECL,

7. When the A/D CLK is driven with ECL or PECL, A/D CLK

8. The ADC-318 and ADC-318A have RSET/RSET input pins.

9. SELECT (pin 45) is used to set output mode. Connection

the reference input voltages given to VRT and VRB. Keep

the ranges of V within values shown in this data sheet.

Standard settings are VRT = +4.0V, V input range from

+2 to +4V. This setting can be varied to VRT = +3.5V,

VRB = +2V and 1.5V p-p analog input range, depending

on your selection of ampliﬁ ers which may provide less

than +4V output.

VRM1 (pin 4), VRM2 (pin 7) and VRM3 (pin 9). These pins

provide ¼, ½ and ¾ full scale of VRT-VRB voltage respec-

tively. These outputs may be used to adjust the integral

non-linearity. Bypass these pins to GND with 0.1uF ceramic

chip capacitors.

PECL (Positive ECL) compatible. Pins are provided indi-

vidually. TTL or PECL is available with +5V single power

applied. ECL is available with ±5V dual power applied. The

connections of –DVs (pin 1) and DGND3 (pin12) are differ-

ent depending on the power supply mode used. Refer to

Figures 2-1 and 2-2.

(pin 13) and A/D CLK (pin 14) are to be driven by differen-

tial logic inputs to avoid unstable performance at critically

high speeds. If a risk of unstable performance is accept-

able, single logic input can be used opening A/D CLK (pin

14). The A/D CLK pin should be bypassed to DGND with a

0.1uF ceramic capacitor. When connected this way there

will be a voltage of DGND –1.2V on the A/D CLK pin. This

voltage can not be used as a threshold voltage for ECL

or PECL. Input the A/D CLK pulse to pin 15 when TTL is

selected.

An internal frequency half divider can be initialized with

inputs to these pins. With ECL or PECL, differential inputs

are given to RSET (pin 48) and RSET (pin 47). This function

can be achieved with a single input, leaving pin 47 open

and bypassing to DGND with a 0.1uF ceramic chip capaci-

tor. The voltage level of pin 47 is the threshold voltage of

ECL or PECL. Use RSET (pin 46) for TTL.

of this pin to DGND selects the straight output mode and

a. For +5V single power (TTL or PECL) –DVs (pin 1) is

b. For ±5V dual power (ECL) –DVs (pin 1) is connected

connected to DGND. DGND3 (pin 12) is connected

to +5V power.

to –5V power. DGND3 (pin 12) is connected to DGND.

Figure 2-3: A/D Clock Input Connection

• 11 Cabot Boulevard, Mansﬁ eld, MA 02048-1151 USA • Tel: (508) 339-3000 • www.datel.com • e-mail: help@datel.com

8-Bit, 120MHz and 140MHz Full-Flash A/D Converter

10.The ADC-318 and ADC-318A have a TTL compatible CLK

11. INV (pin 44) is used to invert polarity of the TTL compatible

DIGITAL INPUT

connection to +DVs selects the 1:2 de-multiplexed out-

put mode. The maximum sampling rates are 100MHz for

straight mode (For both models, ADC-318 and ADC-318A)

and 120MHz (ADC-318) and 140MHz (ADC-318A) for de-

multiplexed mode. Refer to ﬁ gure 2-4. There is an applica-

tion where a multiple number of ADC-318/318A's are used

with a common A/D CLK and outputs are in de-multiplexed

mode. In this case, the initial conditions of the frequency half

divider of each A/D Converter are not synchronized and it is

possible that each converter may have one clock maximum

of timing lag. This lag can be avoided by giving a common

RSET pulse to all converters at power ON. (See Figure 3-3

and 3-4, timing diagrams.)

OUT (pin 43). Since the rising edge of this pulse can provide

Setup and Hold time of output data, regardless of the output

mode, this signal can be used as synchronization pulse

for external circuits. Data output timing is different for the

straight mode and the de-multiplexed mode. See the timing

chart Figure 3.

output data from both A and B ports. Leaving this pin open

or connected to +DVs makes the output positive true and

connection to DGND makes it negative true logic. See

input/output code table, Table 4.

VOLTAGE

SIGNAL

VRM2

VRB

INPUT

VRT

LEVEL

PECL

ECL

TTL

Table 3: Logic Input Level vs. Power Supply Settings

Figure 2-4: Digital Input/Output Connections

Table 4: Digital Output Coding

DIGITAL OUTPUT CODE (A,B OUTPUT)

LSB

–DVS

–5V

11111111

10000000

01111111

00000000

ADC-318, ADC-318A

INV=1

MSB

DGND3

30 Mar 2011 ADC-318.B02 Page 4 of 8

+5V

LSB

00000000

01111111

10000000

11111111

INV=0

VOLTAGES

SUPPLY

+5V

±5V

MSB

ADC-318A Murata Power Solutions, ADC-318A Datasheet - Page 4

ADC-318A

Specifications of ADC-318A

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