DAC-HF12BMM Murata Power Solutions Inc, DAC-HF12BMM Datasheet - Page 2

DAC-HF12BMM

Manufacturer Part Number

DAC-HF12BMM

Description

Digital To Analog Converter

Manufacturer

Murata Power Solutions Inc

Datasheets

1.DAC-HF10BMC.pdf (4 pages)

2.DAC-HF12BMM.pdf (7 pages)

3.DAC-HF10BMM.pdf (4 pages)

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DAC-HF Series

ABSOLUTE MAXIMUM RATINGS, ALL MODELS

FUNCTIONAL SPECIFICATIONS

(Typical at +25°C and ±15V supplies unless otherwise noted.)

Footnotes

Positive Supply, Pin 24

Negative Supply, Pin 22

Digital Input Voltage, Pins 1–12

Lead Temperature (soldering, 10s)

DESCRIPTION

INPUTS

Resolution, Bits

Coding, Unipolar Output

Coding, Bipolar Output

Input Logic Level, Bit ON ("1")

Input Logic Level, Bit OFF ("0")

PERFORMANCE

Nonlinearity Error, max.

Differential Nonlinearity Error, max.

Monotonicity

Gain Tempco, max.

Offset Tempco, Bipolar, max.

Zero Tempco, max.

Settling Time, ns max.

Power Supply Sensitivity

OUTPUTS

Output Current Range, Unipolar

Output Current Range, Bipolar

Output Compliance Voltage

Output Voltage Ranges

Output Resistance

Output Capacitance

Output Leakage Current, All Bits OFF

POWER REQUIREMENTS

Supply Voltages

Positive Quiescent Current, max.

Negative Quiescent Current, max.

PHYSICAL ENVIRONMENTAL

Operating Temperature Range, Case

Storage Temperature Range

Package Type

Weight

With external operational amplifier.

FSR is Full Scale Range, or the difference between minimum

and maximum output values.

Full-scale current change to ±1LSB with 400Ω load.

MIN

to T

MAX

Offset binary

15nA

+18V

–18V

+15V

300°C

Straight binary

+2.0V to +5.5V at +40μA

0V to +0.8V at –2.6mA

±0.012%

±0.024%

±0.012%

±0.024%

Guaranteed over oper. temp. range

±20ppm/°C

±10ppm/°C of FSR

±1.5ppm/°C of FSR

±0.01%/% Supply

0 to +5mA

±2.5mA

±1.2V

0 to –5V

0 to –10V

±2.5V

±5V

±10V

400 Ohms ±10%

15pF

±15V ±0.5V

0°C to +70°C (BMC)

–55°C to +125°C (BMM, 883)

–65°C to +150°C

24-pin ceramic DDIP

0.22 ounces (6.3 grams)

40mA

17mA

45mA

17mA

10B

50mA

17mA

12B

TECHNICAL NOTES

1. Proper operation of the DAC-HF Series converters is

2. Use of a ground plane is particularly important in high-

3. When the converter is configured for voltage output with an

4. The high-speed current switching technique used in the

5. Test the DAC-HF using a low-capacitance test probe (such

6. Passive components used with the DAC-HF may be as

7. Output voltage compliance is ±1.2V to preserve the

dependent on good board layout and connection practices.

Bypass supplies as shown in the connection diagrams.

Mount bypass capacitors close to the converter, directly to

the supply pins where possible.

speed D/A converters as it reduces high-frequency noise

and aids in decoupling the digital inputs from the analog

output. Avoid ground loop problems by connecting all

grounds on the board to the ground plane. The remainder

of the ground plane should include as much of the circuit

board as possible.

external operational amplifier, keep the leads from the

converter to the output amplifier as short as possible.

DAC-HF Series inherently reduces the amplitude and

duration of large transient spikes at the output (“glitches”).

The most severe glitches occur at half-scale, the major

carry transition from 011 … 1 to 100 … 0 or vice versa. At

this time, a skewing of the input codes can create a

transition state code of 111 … 1. The duration of the

“transition state code” is dependent on the degree of

skewing, but its effect is dependent on the speed of the

DAC (an ultra-fast DAC will respond to these brief

spurious inputs to a greater degree than a slow DAC).

Minimize the effects of input skewing by using a high-

speed input register to match input switching times. The

input register recommended for use with the DAC-HF is

easily implemented with two Texas Instruments

SN74S174 hex D-type flip-flops. This register will reduce

glitches to a very low level and ensure fast output settling

times.

as a 10X probe). Take care to assure the shortest

possible connection between probe ground and circuit

ground. Long probe ground leads may pick up

environmental E.M.I. causing artifacts on the scope

display, i.e., signals that do not originate at the unit under

test.

indicated here: 0.1μF and 1μF bypass capacitors should

be ceramic type and tantalum type respectively; the 400Ω

output load is a ±0.1%, 10ppm/°C, metal-film type;

adjustment potentiometers are ceremet types; other

resistors may be ±10% carbon composition types.

linearity of the converter. In the bipolar mode, the DAC-HF

can be operated with no load to give an output voltage of

±1.0V. In the unipolar mode, the load resistance must be

less than 600Ω to give less than +1.2V output. The

specified output currents of 0 to +5mA and ±2.5mA are

measured into a short circuit or an operational amplifier

summing junction.

DAC-HF12BMM Murata Power Solutions Inc, DAC-HF12BMM Datasheet - Page 2

DAC-HF12BMM

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