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REFERENCE ONLY
SPECIFICATION FOR SUPPLIED PRODUCT
SPECIFICATION No. JVR03Z-7148B
TRIMMER POTENTIOMETER / PVZ3G
C01 SERIES
-CONTENTS-
1. SCOPE
2. MURATA PART NUMBER
3. OUTLINE DIMENSIONS AND MARKINGS
4. CHARACTERISTICS
4.1
4.2
4.3
4.4
Electrical Characteristics
Mechanical Characteristics
Environmental Characteristics
Other Characteristics
5. TEST METHOD
5.1
5.2
5.3
5.4
5.5
5.6
5.7
5.8
5.9
5.10
5.11
5.12
5.13
Contact Resistance Variation (CRV)
Temperature Coefficient of Resistance
Permitted Force of Driver Plate
Soldering Strength
High Temperature Exposure
Humidity Exposure
Load Life
Humidity Load Life
Temperature Cycle
Rotational Life
Vibration
Resistance to Soldering Heat
Solderability
6. CAUTION
7. CAUTION FOR USING
7.1
7.2
7.3
7.4
7.5
7.6
7.7
Mounting the product
Soldering
Cleaning
Adjusting
Operating Environmental Conditions
Storage Conditions
Circuit Design Guide
8. NOTICE
9. OUTLINE DIMENSIONS
10. TAPING SPECIFICATIONS
10.1 Plastic Tape Dimensions
10.2 Reel Dimensions
11. PART NUMBERS CROSS REFERENCE TABLE
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1. Scope
SPECIFICATION No. JVR03Z-7148B
REFERENCE ONLY
C01 series
This specification defines the characteristics of Murata made Trimmer Potentiometer PVZ3G
with carbon material of the resistive element.
2. Murata Part Number
PVZ3G
PVZ3G
PVZ3G
Note 1)
C01B00
C01R00
C01R02
Bulk
: 1000pcs./bag
Taping (Standard) : 2500pcs./reel
Taping (Option)
: 2500pcs./reel
: Resistance code
220 ohm
2.2k ohm
22k ohm
220k ohm
2.2M ohm
221
222
223
224
225
330 ohm
3.3k ohm
33k ohm
330k ohm
331
332
333
334
470 ohm
4.7k ohm
47k ohm
470k ohm
471
472
473
474
680 ohm
6.8k ohm
68k ohm
680k ohm
681
682
683
684
Resistance Code Resistance Code Resistance Code Resistance Code Resistance Code Resistance Code
1k ohm
10k ohm
100k ohm
1M ohm
102
103
104
105
1.5k ohm
15k ohm
150k ohm
1.5M ohm
152
153
154
155
Note 2) Taping direction: See 10.Taping Specifications.
Note 3) Please fill in your part number on the cross-reference table.
3. Outline Dimensions and Markings
Please see 9. Outline Dimensions.
4. Characteristics
4.1 Electrical characteristics
ITEM
SPECIFICATION
TEST
METHOD
-
-
-
Standard Resistance Range
220 ohm to 2.2M ohm
Standard Resistance Tolerance ±30% of nominal total resistance value
Taper
B (Linear)
• 50% position of effective rotational angle
- 40 to 60%
• Jump or reverse (except extreme end)
- 5% max.
• Jump or reverse (at the extreme end of #1 or #3) - 5% max.
Power
Power Rating
50°C – 1/10W
100%
85°C - 0W
*In case that the ambient temperature exceed
50°C, the derating curve is as Fig 1.
0
50°C
85°C
However, in case of partial load, power rating
Ambient Temperature
reduces in proportion to the rotational angle
(Fig 1)
of wiper.
E=(P R)^1/2 E: Voltage rating (V)
Voltage Rating
P: Power rating (W)
R: Nominal total resistance value (ohm)
*However, in case that voltage rating exceed max. working voltage,
the max. working voltage should be applied as voltage rating.
Max. Working Voltage
50Vdc
Operating Temperature Range -25°C to +85°C
220 ohm<=R<470 ohm : 10 ohm max. of nominal total resistance value
Residual Resistance
470 ohm<=R<=2.2M ohm: 2% max. of nominal total resistance value
Contact Resistance Variation 5% max. of nominal total resistance value
Temperature Coefficient
±500ppm/°C max.
of Resistance
-
-
-
-
-
5.1
5.2
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4.2 Mechanical Characteristics
ITEM
Effective Rotational Angle
Rotational Torque
Permitted Force to
Driver Plate
Soldering Strength
230°±10° max.
1.0 to 19.6mN m
(Ref; 10 to 200gf cm)
SPECIFICATION No. JVR03Z-7148B
SPECIFICATION
TEST
METHOD
-
-
5.3
5.4
No mechanical damages and breaks.
Rotational torque: 1.0 to 14.7mN m
(Ref; 10 to 150gf cm)
No electrode peeling
4.3 Environmental Characteristics
ITEM
High Temperature Exposure
SPECIFICATION
Total resistance change 220 ohm<=R<=100k ohm : +2/-10% max.
100k ohm< R<=2.2M ohm: +2/-15% max.
CCR
(Note 4)
: 5% max. of nominal total resistance value
Total resistance change: +10/-2% max.
CCR
(Note 4)
: 5% max. of nominal total resistance value
Total resistance change 220 ohm<=R<=100k ohm : +2/-10% max.
100k ohm<R <=2.2M ohm: +2/-15% max.
CCR
(Note 4)
: 5% max. of nominal total resistance value
Total resistance change: ±10% max.
CCR
(Note 4)
: 5% max. of nominal total resistance value
Total resistance change: ±5% max.
CCR
(Note 4)
: 5% max. of nominal total resistance value
Total resistance change: ±10% max.
Rotational torque: 0.5 to 19.6mN m
(Ref; 5 to 200gf.cm)
SS
(Note 5)
: ±2.5% max.
Total resistance change: ±5% max.
CCR
(Note 4)
: 5% max. of nominal total resistance value
Total resistance change 220 ohm<=R<=100k ohm : 0/-15% max.
100k ohm<R <=2.2M ohm: -5/-20% max.
CCR
(Note 4)
: 5% max. of nominal total resistance value
(R12+R23) - R13
2 X R13
X 100 (%)
TEST
METHOD
5.5
5.6
5.7
5.8
5.9
5.10
5.11
5.12.1
5.12.2
Humidity Exposure
Load Life
Humidity Load Life
Temperature Cycling
Rotational Life
Vibration
Soldering Heat Resistance
(Note 4)
Concentrated Contact Resistance =
(Note 5)
R12
Setting Stability =
r13
r12
R13
R12
R23
R13
-
r12
r13
X 100 (%)
: Resistance across #1 Terminal and #3 Terminal before test
: Resistance across #1 Terminal and #2 Terminal before test
: Resistance across #1 Terminal and #3 Terminal after test
: Resistance across #1 Terminal and #2 Terminal after test
: Resistance across #2 Terminal and #3 Terminal after test
4.4 Other Characteristics
ITEM
Solderability
SPECIFICATION
More than 90% of wetting where immersed portion.
TEST
METHOD
5.13
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5. Test Method
SPECIFICATION No. JVR03Z-7148B
REFERENCE ONLY
The tests and measurements should be conducted under the condition of 15 to 35°C of temperature,
25 to 75% of relative humidity and 86 to 106 kpa of atmospheric pressure unless otherwise specified.
If questionable results occur that have been measured in accordance with the above mentioned
conditions, the tests and measurements should be conducted under the condition of 25±2°C of
temperature and, 45 to 55% of relative humidity and 86 to 106 kpa of atmospheric pressure.
When the trimmer potentiometer is tested after soldering on PCB, it should be tested after being kept
in a room (15 to 35°C, 25 to 75%RH) over 24 hours except ” 5.12 Resistance to soldering heat“.
5.1 Contact resistance variation (CRV)
Contact resistance variation should be measured with the measuring circuit shown below, or its equivalent.
The operating wiper should be rotated in both directions through 90% of the actual effective electrical travel
for a total of 6 cycles. The rate of rotation of the operating wiper should be such that the wiper completes
1 count in determining whether or not a contact resistance variation is observed at least twice in the same
location.
[Measurement circuit]
#1
Rx
#3
Oscilloscope
#2
Constant Current Source
(Test current shown in below)
Proofread
Resistance
AC
Amplifier
RX:Trimmer Potentiometer
[Measurement wave]
VN
Except ineffective
variable portion
[Test current for CRV]
Nominal total resistance
220 ohm<=R< 10k ohm
10k ohm<=R<100k ohm
100k ohm<=R
Test current
10mA max.
1mA max.
100µA max.
VN
CRV =
IS • RX
100(%)
IS : Test current for CRV
RX: Nominal total resistance of trimmer potentiometer
VN: Noise voltage (peak to peak)
5.2 Temperature coefficient of resistance
The trimmer potentiometer should be subjected to
Sequence
*1
each of the following temperatures (see Table 1)
Temp. (°C) +25±2
for 30 to 45 minutes. The resistance value
should be measured in the chamber.
Note)*: Norm Temp.
TC =
R
2
- R
1
R
1
(T
2
- T
1
)
X 10 (ppm/°C)
6
Table 1
2
-25±3
*3
+25±2
4
+85±3
T
1
: Reference temperature in degrees Celsius
T
2
: Test temperature in degrees Celsius
R
1
: Resistance at reference temperature in ohm
R
2
: Resistance at test temperature in ohm
5.3 Permitted force of Driver plate
A static load of 4.9N
(Ref; 500gf)
should be applied on the driver plate of the trimmer potentiometer for 5+1/-0
second. The load should be applied on driver plate uniformly by the 3mm-size plate of push-pull gage.
5.4 Soldering strength
The trimmer potentiometer should be soldered under the soldering condition described in paragraph 7.2(1) on
standard land pattern described in 9. Outline dimensions. A static load of 9.8N
(Ref; 1kgf)
should be applied
from rear side through the hole opened in the center of PCB by the 1.0±0.1mm dia. stick for 5 second.
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5.5 High temperature exposure
SPECIFICATION No. JVR03Z-7148B
The wiper contact point should be preset at about 50% position of effective rotational angle. After that, the
trimmer potentiometer should be kept in a chamber at 70±2°C without loading for 500±12 hours. The
resistance value should be measured after keeping the trimmer potentiometer in a room for 1.5±1/6 hours.
5.6 Humidity exposure
The wiper contact point should be preset at about 50% position of effective rotational angle. After that,
the trimmer potentiometer should be kept in a chamber at 40±2°C and 90 to 95% without loading for 500±12
hours. The resistance value should be measured after keeping the trimmer potentiometer in a room for 5±1/6
hours.
5.7 Load life
The wiper contact point should be preset at about 50% position of effective rotational angle. After that, the
trimmer potentiometer should be kept in a chamber at 50±2°C with loading the 1/2 rated voltage between #1
and #2 terminals, intermittently 1.5 hours ON and 0.5 hours OFF for 1000±12 hours. The resistance value
should be measured after keeping the trimmer potentiometer in a room for 1.5±1/6 hours.
5.8 Humidity load life
The wiper contact point should be preset at about 50% position of effective rotational angle. After that, the
trimmer potentiometer should be kept in a chamber at 40±2°C and 90 to 95% with loading the 1/2 rated voltage
between #1 and #2 terminals, intermittently 1.5 hours ON and 0.5 hours OFF for 1000±12hours.
The resistance value should be measured after keeping the trimmer potentiometer in a room for 5±1/6 hours.
5.9 Temperature cycle
The wiper contact point should be preset at about
50% position of effective rotational angle. After that,
the trimmer potentiometer should be subjected to
Table 2 temperatures for 5 cycles. The resistance
value should be measured after keeping the trimmer
potentiometer in a room for 1.5±1/6 hours.
Sequence
Temp. (°C)
Time (min.)
Table 2
1
2
-25±3
+25±2
30±3 10 max.
3
+85±3
30±3
4
+25±2
10 max.
5.10 Rotational life
The wiper should be rotated over 90% of the effective rotational angle without loading at a speed of 10 cycles
per minute, for 10 cycles continuously. The resistance value should be measured after keeping the trimmer
potentiometer in a room for 10±5 minutes.
5.11 Vibration
The wiper contact point should be preset at about 50% position of effective rotational angle. After that, the
trimmer potentiometer should be tested under the condition of the amplitude of 1.5mm, the frequency range
from 10 to 55Hz (shall be traversed in approximately one minute) and 2 hours in each of 3 mutually
perpendicular directions. (Total 6 hours)
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