HDAS524-528 [MURATA]
12-Bit, 400kHz, Complete Data Acquisition System; 12位, 400kHz的,完整的数据采集系统型号: | HDAS524-528 |
厂家: | muRata |
描述: | 12-Bit, 400kHz, Complete Data Acquisition System |
文件: | 总5页 (文件大小:197K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
HDAS-524, HDAS-528
12-Bit, 400kHz, Complete
Data Acquisition System
FEATURES
ꢀ
12-Bit resolution, 400kHz throughput
ꢀ
8 Channels single-ended or 4 channels
differential
ꢀ
ꢀ
ꢀ
ꢀ
Miniature, 40-pin, ceramic DDIP
Full scale input range from 100mV to 10V
Three-state outputs
INPUT/OUTPUT CONNECTIONS
No missing codes
PIN FUNCTION
PIN FUNCTION
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
CH0/CH0 HI
CH1/CH1 HI
CH2/CH2 HI
CH3/CH3 HI
CH7/CH3 LO
CH6/CH2 LO
CH5/CH1 LO
CH4/CH0 LO
COMP BIN
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
25
24
23
22
21
START CONVERT
CA2
CA1
CA0
+5V SUPPLY
DIGITAL GROUND
ENABLE
BIT 1 (MSB)
BIT 2
BIT 3
BIT 4
BIT 5
BIT 6
BIT 7
BIT 8
BIT 9
BIT 10
GENERAL DESCRIPTION
The HDAS-524 and HDAS-528 are complete data acquisition systems. Each
contains an internal multiplexer, instrumentation amplifier, sample-hold,
analog-to-digital converter and three-state outputs. Packaged in miniature,
40-pin, double-dip packages, the HDAS-524/528 have a low power dissipation
of 2.6 Watts.
The HDAS-524 provides 4 differential inputs, and the HDAS-528 provides
8 single-ended inputs. An internal instrumenta- tion amplifier is characterized
for gains of 1, 2, 4, 8, 10 and 100. The gain range is selectable through a
single external resistor.
RGAIN LO
RGAIN HI
S/H OUT
HDAS-524/528 OPERATION
+10V REFERENCE OUT
SIGNAL GROUND
GAIN ADJUST
OFFSET ADJUST
BIPOLAR
–15V SUPPLY
ANALOG GROUND
+15V SUPPLY
The HDAS devices accept either 8 single-ended or 4 differential input signals.
Tie unused channels to SIGNAL GROUND, pin 14. Channel selection is
accomplished using the multiplexer address pins as shown in Table 1. Obtain
additional channels by connecting external multiplexers.
BIT 11
BIT 12 (LSB)
EOC
The acquisition time is the amount of time the multiplexer, instrumentation
amplifier and sample-hold require to settle within a specified range of accu-
racy. The acquisition time can be measured by how long EOC is low before
the rising edge of the START CONVERT pulse for continuous operation. Higher
Continued on page 3
ꢀꢀ
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ꢀꢉ ꢀꢁ
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ꢉꢝꢅꢅꢅꢜꢗꢈꢅꢁꢅꢅ
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ꢉꢅꢎꢅꢋꢏꢀꢅ
ꢄꢐꢑꢂꢒꢁꢉꢋꢅ
ꢕꢄꢉꢃꢕꢄꢉꢅꢄꢗꢅꢅꢘꢅꢅ
ꢕꢄꢘꢃꢕꢄꢘꢅꢄꢗꢅꢅꢋꢅꢅ
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ꢕꢄꢚꢃꢕꢄꢘꢅꢙꢆꢅꢅꢁ
ꢅꢅ
ꢓꢇꢔꢅ
ꢅꢅ
ꢗꢃꢑꢅ
ꢂꢃꢄꢅ
ꢊꢁꢉꢋꢌꢅ
ꢊꢁꢉꢍꢌꢅ
ꢍꢏꢀꢅ
ꢀꢉꢒꢜꢗꢈꢅꢅ
ꢑꢃꢐꢅ
ꢘꢅꢂꢈꢑꢈꢞꢅ
ꢆꢇꢈꢟꢇꢈ
ꢄꢐꢑꢂꢒꢁꢉꢍ
ꢉꢚꢅꢅꢅꢜꢗꢈꢅꢚꢅꢅ
ꢉꢛꢅꢅꢅꢜꢗꢈꢅꢍꢅꢅ
ꢉꢁꢅꢅꢅꢜꢗꢈꢅꢝꢅꢅ
ꢉꢋꢅꢅꢅꢜꢗꢈꢅꢀꢖꢅ
ꢉꢘꢅꢅꢅꢜꢗꢈꢅꢀꢀꢅ
ꢂꢗꢠꢡꢑꢙꢅꢠꢢꢆꢇꢡꢐꢅꢀꢋ
ꢉꢉꢅꢅꢅꢜꢗꢈꢅꢀꢉꢅꢊꢙꢂꢜꢌꢅ
ꢘꢍ ꢘꢚ
ꢀꢍ
ꢀꢘ
ꢋꢖ
ꢉꢀ
ꢝ
ꢘꢋꢅ
ꢘꢝ
ꢀꢝ
ꢘꢁ
ꢘꢛ
ꢉꢖ
Typical topology is shown.
Figure 1. Functional Block Diagram
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MDC_HDAS-524/528.B01 Page 1 of 5
HDAS-524, HDAS-528
TYP.
ABSOLUTE MAXIMUM RATINGS
PERFORMANCE
MAX.
UNITS
MIN. ——
PARAMETERS
MIN.
TYP.
MAX.
UNITS
Resolution
12
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
Bits
LSB
Integral Nonlinearity, +25°C
0 to +70°C
–55 to +125°C
—
±0.75
±0.75
±1.5
±0.75
±0.75
±1
+15V Supply, Pin 20
0
—
—
—
—
—
—
+18
–18
Volts
Volts
Volts
Volts
Volts
°C
—
LSB
LSB
–15V Supply, Pin 18
0
—
+5V Supply, Pin 36
–0.5
–0.±
–15
—
+7
Differential Nonlinearity, +25°C
0 to +70°C
–55 to +125°C
—
LSB
LSB
Digital Inputs, Pins 9, 34, 37-40
Analog Inputs, Pins 1–8
Lead Temperature (10 seconds)
+VDD +0.±
+15
—
—
LSB
±00
F.S. Abs. Accuracy, +25°C
0 to +70°C
–55 to +125°C
±0.1±
±0.15
±0.25
±0.074
±15
±0.074
±5
±0.±
±0.5
±0.78
±0.15
±±0
%FSR
%FSR
%FSR
%FSR
ppmꢀ°C
%FSR
ppmꢀ°C
%FSR
ppmꢀ°C
%
FUNCTIONAL SPECIFICATIONS
Unipolar Zero Error, +25°C
Unipolar Zero Tempco
Bipolar Zero Error, +25°C
Bipolar Zero Tempco
Bipolar Offset Error, +25°C
Bipolar Offset Tempco
Gain Error, +25°C
(Apply over the operating temperature range with ±15V and +5V supplies unless
otherwise specified.)
±0.15
±10
ANALOG INPUTS
MIN.
TYP.
MAX.
UNITS
±0.1
±20
±0.1
±20
±0.25
±40
Number of Inputs
HDAS-524
HDAS-528
4 differential inputs
8 single-ended inputs
±0.25
±40
Gain Tempco
ppmꢀ°C
Input Voltage Ranges
Gain = 1
Gain = 100
Harmonic Distortion (–FS)
(DC to 5kHz, 10Vp-p) ~
No Missing Codes
0 to +10V, ±10V
0 to +100mV, ±100mV
1, 2, 4, 8, 10, 100
—
–7± –65
Over operating temperature range
dB
I.A. Gain Ranges
Input Impedance
CH On, CH Off
SIGNAL TIMING
1011
1012
—
Ohms
Enable to Data Valid Delay
MUX Address Set-up Time
Start Convert Pulse Width
Data Valid After
EOC Signal Goes Low
Conversion Time, +25°C
0 to +70°C
—
400
50
—
—
10
—
—
ns
ns
ns
Input Capacitance
(-524) CH On, CH Off
(-528) CH On, CH Off
Input Bias Current
Input Offset Current
Input Offset Voltage
Common Mode Voltage Range
CMRR, G = 1, @10Hz,
Vcm = 1Vp-p
—
—
—
—
—
—
—
—
12
25
pF
pF
100
—
±200
±50
±10
—
pA
pA
—
—
—
—
—
—
—
—
20
ns
ns
ns
ns
—
800
850
880
—
±11
mV
Volts
–55 to +125°C
Throughput Rates ~
Gain = 1
Gain = 2
72
80
—
dB
400
±25
275
225
175
40
—
—
—
—
—
—
—
—
—
—
—
—
kHz
kHz
kHz
kHz
kHz
kHz
Voltage Noise (RMS)
Gain = 1
Gain = 8
—
—
—
—
200
50
MV
MV
Gain = 4
Gain = 8
MUX Crosstalk @125kHz
MUX ON Resistance
Bias Current Tempco
Offset Current Tempco
Offset Voltage Tempco
–72
—
—
450
—
500
dB
Gain = 10
Gain = 100
Ohms
Doubles (max.) every 10°C above +70°C
Doubles (max.) every 10°C above +70°C
(±±0ppmꢀ°C x gain) ±20ppmꢀ°C (max.)
S/H PERFORMANCE
Acquisition Time
Full-Scale Step to ±0.01%
Full-Scale Step to ±0.1%
Aperture Delay
—
—
500
400
–20
—
900
750
0
ns
ns
2k7
RGAIN
GAIN =
+1
Input Gain Equation
–50
—
ns
DIGITAL INPUTS
Aperture Uncertainty
Slew Rate
±150
—
ps
Logic Levels
Logic 1
±70
±90
Vꢀμs
+2.0
—
—
—
—
Volts
Volts
Hold Mode Settling Time
To ±1mV
To ±10mV
Logic 0
+0.5
—
—
80
—
100
75
200
150
—
ns
ns
Logic Loading
Logic 1
—
—
—
—
+5
MA
MA
Feedthrough Rejection
Droop Rate ~
88
±0.1
dB
μVꢀμs
Logic 0
–600
±100
OUTPUTS
POWER SUPPLIES
Logic Levels
Logic 1
Range, +15V Supply
–15V Supply
+5V Supply
+14.25
–14.25
+4.75
—
+15.0
–15.0
+5.0
+78
–72
+75
2.6
+15.75
–15.75
+5.25
+90
Volts
Volts
+2.4
—
—
—
—
Volts
Volts
Logic 0
+0.4
Volts
mA
Logic Loading
Logic 1
Current, +15V Supply
–15V Supply
+5V Supply
—
—
—
—
–160
+6.4
MA
mA
—
–82
+95
mA
mA
Logic 0
—
Internal Reference
Voltage, +25°C
Drift
Power Dissipation
Power Supply Rejection
—
±
±0.05
Watts
%FSRꢀ%V
+9.9
—
+10.0
±5
+10.1
±±5
Volts
ppmꢀ°C
mA
—
—
PHYSICAL/ENVIRONMENTAL
External Current
Output Coding
—
—
1.5
Oper.Temp. Range, Case, -MC,
-MM, 88±
0
—
—
—
+70
+125
+150
°C
°C
°C
Straight binaryꢀOffset binary
Comp. binaryꢀComp. offset binary
–55
–65
Storage Temp. Range
Package Type
Weight
Footnotes:
40-pin ceramic DDIP
0.56 ounces (16 grams)
~ Specifications valid at +25°C and over the temperature ranges of 0 to +70°C or –55 to +125°C.
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MDC_HDAS-524/528.B01 Page 2 of 5
HDAS-524, HDAS-528
gains require the use of the RGAIN resistor to increase the acquisition time.
The gain is equal to 1 without an RGAIN resistor. Table 2 refers to the appropriate
RGAIN resistors for various throughputs.
CALIBRATION PROCEDURE
1. Connect the converter per Figure 2 and Tables 2 and 3 for the appropriate
input range. Apply a pulse of 100 nano-seconds (typical) to the START
CONVERT input (pin 40) at a rate of 100kHz. This rate is chosen to reduce
flicker if LED’s are used on the outputs for calibration purposes.
2. Zero Adjustments
The HDAS devices enter the hold mode and are ready for conversion upon
the start convert going high. The conversion is complete within a maximum of
800ns (+25°C). EOC returns low, the data is valid and sent to the three-state
output buffers. The sample/hold is now ready to acquire new data.
Apply a precision voltage reference source between the analog input and
SIGNAL GROUND (pin 14). Adjust the output of the reference source per
Table 3. For unipolar, adjust the zero trimming potentiometer so that the
output code flickers equally between 0000 0000 0000 and 0000 0000
0001 with the COMP BIN (pin 9) tied high (straight binary) or between
1111 1111 1111 and 1111 1111 1110 with the COMP BIN (pin 9) tied low
(complementary binary).
Table 1. MUX Channel Addressing
MUX ADDRESS PINS
39
38
37
CA2 CA1 CA0
CHANNEL
For bipolar operation, adjust the potentiometer such that the code flickers
equally between 1000 0000 0000 and 1000 0000 0001 with COMP BIN
(pin 9) tied high (offset binary) or between 0111 1111 1111 and 0111
1111 1110 with COMP BIN (pin 9) tied low (complementary offset binary).
3. Full-Scale Adjustment
Set the output of the voltage reference used in step 2 to the value shown
in Table 3. Adjust the gain trimming potentiometer so that the output
code flickers equally between 1111 1111 1110 and 1111 1111 1111 or
0000 0000 0001 and 0000 0000 0000 for complementary coding.
4. To confirm proper operation of the device, vary the precision reference
voltage source to obtain the output coding listed in Table 4.
0
0
0
0
1
1
1
1
0
0
1
1
0
0
1
1
0
1
0
1
0
1
0
1
0
1
2
3
4
5
6
7
HDAS-524
(2-BIT ADDRESS)
HDAS-528
(3-BIT ADDRESS)
Table 2. Input Range Parameters
INPUT RANGE
GAIN
RGAIN
THROUGHPUT
ꢘꢛ
ꢣꢁꢤ
0 to +10V
0 to +5V
0 to +2ꢨ5V
0 to +1ꢨ25V
0 to +1V
1
2
4
8
10
100
OPEN
2k7
6657
2877
2217
207
400kHz
325kHz
275kHz
225kHz
175kHz
40kHz
ꢣ
ꢋ.ꢚµꢦ
ꢖ.ꢀµꢦ
ꢘꢁ
ꢐꢠꢡꢐ
ꢀꢖ
ꢢ
ꢢ
ꢄꢗ
ꢠꢑꢗꢡ
ꢠꢑꢗꢡ
ꢢ
ꢠꢑꢗꢡ
0 to +100mV
ꢙꢆ
ꢀꢀ
ꢀꢘ
10V
5V
2ꢨ5V
1ꢨ25V
1V
1
2
4
8
10
100
OPEN
2k7
6657
2877
2217
207
400kHz
325kHz
275kHz
225kHz
175kHz
40kHz
ꢣꢀꢖꢤꢅꢢꢞꢦ
ꢣ
ꢖ.ꢀµꢦ
ꢋ.ꢚµꢦ
ꢀꢁꢂꢃꢄꢅꢆꢇꢈꢅꢆꢉ
ꢀꢝ
ꢀꢁ
ꢀꢁꢤ
ꢉꢖꢩ
100mV
ꢠꢑꢗꢡꢅꢑꢐꢧꢇꢂꢈ
ꢣꢀꢁꢤ
ꢀꢁꢤ
ꢉꢖꢩ
2k7
(GAIN –1)
2k7
RGAIN
ꢀꢛ
ꢀꢍ
GAIN =
+1
RGAIN =
ꢆꢦꢦꢂꢞꢈꢅꢑꢐꢧꢇꢂꢈ
ꢣꢀꢁꢤ
ꢋ.ꢚµꢦ
ꢋ.ꢚµꢦ
ꢀꢁꢤ
ꢖ.ꢀµꢦ
ꢀꢝ
ꢑꢠꢡꢐ
Table 3. Zero and Gain Adjust
ꢣ
ꢣ
ꢖ.ꢀµꢦ
ꢉꢖ
ZERO ADJUST
+1/2LSB
GAIN ADJUST
+FS – 1 1/2LSB
INPUT RANGE
ꢣꢀꢁꢤ
0 to +10V
10V
+1ꢨ22mV
+2ꢨ44mV
+9ꢨ9963V
+9ꢨ9927V
Figure 2. Typical Connection Diagram
Notes:
1ꢨ For unipolar operation, connect pin 12 to pin 17ꢨ
2ꢨ For bipolar operation, connect pin 13 to pin 17ꢨ
3ꢨ Position RGAIN as close as possible to pins 10 and 11ꢨ
Use RN55C, 1% resistorsꢨ
4ꢨ If gain and offset adjusts are not used, connect pin 15
to ground and leave pin 16 openꢨ
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MDC_HDAS-524/528.B01 Page 3 of 5
ꢡꢅꢅꢅꢅꢀꢅ
ꢡꢅ
HDAS-524, HDAS-528
TECHNICAL NOTES
1. Rated performance requires using good high-frequency circuit board layout
techniques. The analog and digital ground pins are not connected to each
other internally. Avoid ground-related problems by connecting the analog,
signal and digital grounds to one point, the ground plane beneath the con-
verter. Due to the inductance and resistance of the power supply return paths,
return the analog and digital grounds separately to the power supplies. This
prevents contamination of the analog ground by noisy digital ground currents.
2. Double-level multiplexing allows expanding the multiplexer channel capacity
of the HDAS-528 from 8 single-ended channels to 128 single-ended chan-
nels or the HDAS-524 from 4 differential channels to 32 differential channels.
3. Obtain straight binary/offset binary output coding by tying COMP BIN (pin 9)
to +5V or leaving it open. The device has an internal pull-up resistor on this
pin. To obtain complementary binary or complementary offset binary output
coding, tie pin 9 to ground. The COMP BIN signal is compatible to CMOS/TTL
logic levels for those users desiring logic control of this function.
4. To enable the three-state outputs, connect ENABLE (pin 34) to a logic "0"
(low). To disable, connect pin 34 to a logic "1" (high).
ꢀꢖꢖꢪꢫꢅꢬꢭꢪ.
ꢂꢈꢑꢢꢈ
ꢕꢆꢡꢤꢞꢢꢈꢅꢅ
ꢍꢁꢖꢪꢫꢅ
ꢞꢆꢕꢅ
ꢉꢖꢪꢫꢅꢬꢭꢪ.
ꢘꢁꢪꢫꢅꢬꢮꢎ.ꢅꢅ
ꢘꢁꢪꢫ
ꢆꢇꢈꢟꢇꢈ
ꢐꢑꢈꢑꢅꢅ
ꢡꢅꢀꢅꢤꢮꢯꢭꢰꢅ
ꢀ.ꢍµꢫꢅ
ꢡꢅꢤꢮꢯꢭꢰꢅ
ꢡꢅꢀꢅꢤꢮꢯꢭꢰꢅ
ꢞꢡꢑꢜꢙꢞ
ꢞꢪꢮꢵꢯꢶꢰꢅꢰꢮꢱꢮꢅꢅ
ꢡꢅꢤꢮꢯꢭꢰꢅ
ꢘꢖꢪꢫ
ꢘꢖꢪꢫ
ꢐꢭꢫꢮꢵꢯꢶꢅꢡꢅꢅꢀꢅ
ꢘꢖꢪꢫ
Notes:
ꢋꢖꢪꢫꢅꢱꢲꢳꢭꢴꢮꢯ
ꢕꢑꢀꢅ
ꢕꢑꢖꢅ
1ꢨ A START CONVERT pulse greater than
150ns will slow the throughputꢨ
2ꢨ Retriggering START CONVERT before
EOC goes low will not start a new
ꢋꢖꢪꢫꢅꢱꢲꢳꢭꢴꢮꢯ
conversionꢨ
3ꢨ Times shown apply over the 0 to +70°C
ꢕꢄꢖꢅꢑꢐꢐꢢꢞꢂꢂꢞꢐꢅ
ꢕꢄꢀꢅꢑꢐꢐꢢꢞꢂꢂꢞꢐꢅ
ꢕꢄꢉꢅꢑꢐꢐꢢꢞꢂꢂꢞꢐ
operating temperature rangeꢨ
Figure 3. HDAS-524/528 Timing Diagram
Table 4. Output Coding
STRAIGHT BINARY
COMP. BINARY
UNIPOLAR
SCALE
INPUT RANGE
0 to +10V
OUTPUT CODING
INPUT RANGE
10V
BIPOLAR
SCALE
MSB
LSB MSB
LSB
+FS – 1LSB
+7/8FS
+3/4FS
+1/2FS
+1/4FS
+1/8FS
+1LSB
0
+9.9976V
+8.7500V
+7.5000V
+5.0000V
+2.5000V
+1.2500V
+0.0024V
0.0000V
1111 1111 1111
1110 0000 0000
1100 0000 0000
1000 0000 0000
0100 0000 0000
0010 0000 0000
0000 0000 0001
0000 0000 0000
0000 0000 0000
0001 1111 1111
0011 1111 1111
0111 1111 1111
1011 1111 1111
1101 1111 1111
1111 1111 1110
1111 1111 1111
+9.9951V
+7.5000V
+5.0000V
0.0000V
–5.0000V
–7.5000V
–9.9951V
–10.0000V
+FS – 1LSB
+3/4FS
+1/2FS
0
–1/2FS
–3/4FS
–FS + 1LSB
–FS
OFFSET BINARY
COMP. OFF. BINARY
www.murata-ps.com
Technical enquiries email: sales@murata-ps.com, tel: +1 508 339 3000
MDC_HDAS-524/528.B01 Page 4 of 5
HDAS-524, HDAS-528
Mechnical Dimensions
INCHES (mm)
40-PIN DDIP
2ꢨ12 MAXꢨ
(53ꢨ85)
ꢁꢊꢋꢌꢍꢎꢊꢏꢍꢐꢑꢏꢒꢌꢓꢔꢍꢕꢌꢎꢐ(unless otherwise indicated):
2 place decimal (ꢨXX) 0ꢨ010 ( 0ꢨ254)
3 place decimal (ꢨXXX) 0ꢨ005 ( 0ꢨ127)
ꢖꢌꢔꢗꢐꢘꢔꢙꢌꢓꢊꢔꢒꢚꢐKovar alloy
40
1
21
ꢖꢌꢔꢗꢐꢛꢊꢍꢊꢎꢜꢚꢐ50 microinches (minimum) gold plating
over 100 microinches (nominal) nickel plating
0ꢨ80 MAXꢨ
(20ꢨ32)
20
0ꢨ100 TYPꢨ
(2ꢨ540)
1ꢨ900 0ꢨ008
(48ꢨ260)
0ꢨ245 MAXꢨ
(6ꢨ223)
PIN 1 INDEX
ON TOP)
(
0ꢨ200 MAXꢨ
(5ꢨ080)
0ꢨ012 0ꢨ003
(0ꢨ305)
0ꢨ210 MAXꢨ
(5ꢨ334)
0ꢨ100
(2ꢨ540)
0ꢨ100
(2ꢨ540)
0ꢨ018 0ꢨ002
(0ꢨ457)
0ꢨ600 0ꢨ010
(15ꢨ240)
SEATING
PLANE
0ꢨ025
0ꢨ040
(10ꢨ160)
(0ꢨ635)
Ordering Information
Input
Model No.
Operating Temp. Range
0 to +70°C
ISO 9001
HDAS-524MC
HDAS-524MM
HDAS-528MC
HDAS-528MM
HDAS-528/883
4D Channels
R
E G I S T E R E D
4D Channels
–55 to +125°C
0 to +70°C
8SE Channels
8SE Channels
8SE Channels
–55 to +125°C
–55 to +125°C
Receptacle for PC board mounting can be ordered through AMP Incꢨ,
Part #3-331272-8 (Component Lead Socket), 40 requiredꢨ
Contact Murata Power Solutions for MIL-STD-883 product specificationsꢨ
USA:
Canada: Toronto, Tel: (866) 740 1232, email: toronto@murata-ps.com
UK: Milton Keynes, Tel: +44 (0)1908 615232, email: mk@murata-ps.com
Tucson (AZ), Tel: (800) 547 2537, email: sales@murata-ps.com
France: Montigny Le Bretonneux, Tel: +33 (0)1 34 60 01 01, email: france@murata-ps.com
Germany: München, Tel: +49 (0)89-544334-0, email: ped.munich@murata-ps.com
Murata Power Solutions, Inc.
Japan:
Tokyo, Tel: 3-3779-1031, email: sales_tokyo@murata-ps.com
Osaka, Tel: 6-6354-2025, email: sales_osaka@murata-ps.com
Website: www.murata-ps.jp
11 Cabot Boulevard, Mansfield, MA 02048-1151 U.S.A.
Tel: (508) 339-3000 (800) 233-2765 Fax: (508) 339-6356
www.murata-ps.com email: sales@murata-ps.com
ISO 9001 REGISTERED
China:
Shanghai, Tel: +86 215 027 3678, email: shanghai@murata-ps.com
Guangzhou, Tel: +86 208 221 8066, email: guangzhou@murata-ps.com
3/12/08
Murata Power Solutions, Inc. makes no representation that the use of its products in the circuits described herein, or the use of other
technical information contained herein, will not infringe upon existing or future patent rights. The descriptions contained herein do not
imply the granting of licenses to make, use, or sell equipment constructed in accordance therewith. Specifications are subject to change
without notice.
© 2008 Murata Power Solutions, Inc.
www.murata-ps.com
Technical enquiries email: sales@murata-ps.com, tel: +1 508 339 3000
MDC_HDAS-524/528.B01 Page 5 of 5
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