ADS-939 MURATA-PS [Murata Power Solutions Inc.], ADS-939 Datasheet - Page 3

ADS-939

Manufacturer Part Number

ADS-939

Description

16-Bit, 10MHz Sampling A/D Converters

Manufacturer

MURATA-PS [Murata Power Solutions Inc.]

Datasheet

1.ADS-939.pdf (7 pages)

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TECHNICAL NOTES

1. Obtaining fully speciﬁed performance from the ADS-939A requires

2. The ADS-939A achieves its speciﬁed accuracies without the need

3. Pin 35 (COMP. BITS) is used to select the digital output coding format

Internal Reference

External Current

DIGITAL OUTPUTS

Logic Levels

Output Coding

POWER REQUIREMENTS

Power Supply Ranges

Power Supply Currents

Power Dissipation

Power Supply Rejection

DYNAMIC PERFORMANCE (Cont.)

ANALOG OUTPUT

Footnotes:

careful attention to pc-card layout and power supply decoupling. The

device's analog and digital ground systems are connected to each

other internally. For optimal performance, tie all ground pins (4, 7, 30

and 36) directly to a large analog ground plane beneath the package.

For the best performance it is recommended to use a single power

source for both the +5V analog and +5V digital supplies. Bypass all

power supplies and the +3.2V reference output to ground with 4.7μF

tantalum capacitors in parallel with 0.1μF ceramic capacitors. Locate

the bypass capacitors as close to the unit as possible.

for external calibration. If required, the device's small initial offset

and gain errors can be reduced to zero using the adjustment circuitry

shown in Figure 2. When using this circuitry, or any similar offset and

gain calibration hardware, make adjustments following warm-up. To

avoid interaction, always adjust offset before gain. Tie pins 5 and 6 to

ANALOG GROUND (pin 4) if not using offset and gain adjust circuits.

of the ADS-939A. See Tables 2a and 2b. When this pin has a TTL

logic "0" applied, it complements all of the ADS-939A’s digital outputs.

When pin 35 has a logic "1" applied, the output coding is comple-

Voltage

Drift

Logic "1"

Logic "0"

Logic Loading "1"

Logic Loading "0"

+5V Supply

–5V Supply

+12V Supply

–12V Supply

+15V Supply

–15V Supply

+5V Supply

–5V Supply

–12/15V Supply

+12/15V Supply

Effective bits is equal to:

All power supplies must be on before applying a start convert pulse. All

supplies and the clock (START CONVERT) must be present during warm-up

periods. The device must be continuously converting during this time.

When COMP. BITS (pin 35) is low, logic loading "0" will be –350μA.

A 10MHz clock with a 50nsec positive pulse width is used for all production

testing. See Timing Diagram for more details.

(SNR + Distortion) – 1.76 +

6.02

20 log

+4.75

–4.75

+11.5

–11.5

+14.5

–14.5

MIN.

+2.4

—

(Offset) Binary / Complementary (Offset) Binary / Two's Complement / Complementary Two's Complement

Actual Input Amplitude

Full Scale Amplitude

www.murata-ps.com

+25°C

+12.0

+15.0

TYP.

–12.0

–15.0

+3.2

+5.0

–5.0

±30

+50

–36

–25

+70

1.5

—

MAX.

+5.25

+12.5

+15.5

±0.07

–5.25

–12.5

–15.5

+0.4

TBD

—

–4

—

+4.75

–4.75

+11.5

–11.5

+14.5

–14.5

+2.4

MIN.

—

4. To enable the three-state outputs, connect OUTPUT

5. Applying a start convert pulse while a conversion is in progress

6. Do not enable/disable or complement the output bits or read from

7. The OVERFLOW bit (pin 33) switches from 0 to 1 when the input

This is the time required before the A/D output data is valid once the analog

input is back within the speciﬁed range.

See table 2a, Setting Output Coding Selection.

The minimum supply voltages of +4.9V and –4.9V for ±V

–55°C operation only. The minimum limits are +4.75V and –4.75V when

operating at +125°C.

±12V only or ±15V only required.

mentary (offset) binary. Applying a logic "0" to pin 35 changes the

coding to (offset) binary. Using the MSB output (pin 29) instead of

the MSB output (pin 28) changes the respective output codings to

complementary two's

complement and two's complement.

Pin 35 is TTL compatible and can be directly driven with digital logic

in applications requiring dynamic control over its function. There

is an internal pull-up resistor on pin 35 allowing it to be either con-

nected to +5V or left open when a logic "1" is required.

ENABLE (pin 34) to a logic "0" (low). To disable, connect pin 34 to a

logic "1" (high).

(EOC = logic "1") will initiate a new and probably inaccurate conver-

sion cycle. Data from both the interrupted and subsequent conver-

sions will be invalid.

the FIFO during the conversion process (from the rising edge of

EOC to the falling edge of EOC).

voltage exceeds that which produces an output of all 1’s or when

the input equals or exceeds the voltage that produces all 0’s. When

COMP BITS is activated, the above conditions are reversed.

0 TO +70°C

+12.0

–12.0

+15.0

–15.0

TYP.

+3.2

+5.0

–5.0

TBD

±30

—

MAX.

+5.25

–5.25

+12.5

–12.5

+15.5

–15.5

±0.07

+0.4

TBD

16-Bit, 10MHz Sampling A/D Converters

Technical enquiries email: sales@murata-ps.com, tel:

–4

—

+11.5

+14.5

–11.5

–14.5

+2.4

+4.9

–4.9

MIN.

—

–55 TO +125°C

+12.0

–12.0

+15.0

–15.0

TYP.

+3.2

+5.0

–5.0

TBD

±30

—

MDA_ADS-939.A01 Page 3 of 7

+5.25

+12.5

+15.5

±0.07

–5.25

–12.5

–15.5

are required for

+0.4

TBD

MAX.

—

–4

—

ADS-939

%FSR/%V

+1 508 339 3000

ppm/°C

UNITS

Watts

Volts

ADS-939 MURATA-PS [Murata Power Solutions Inc.], ADS-939 Datasheet - Page 3

ADS-939

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