477
Resistive
Position Sensors
Rotary Type Linear Type
Rotary sensors catering to diverse position
detection needs
Rotary Type
RDC40
RDC50
RDC90
Minimum order unit (pcs.)
Japan Export
Mounting method Drawing No.
Linearity
guarantee range Linearity Hollow shaft variation Operating life
(cycles) Model No.
1, 5 0 0 3,000
1, 6 0 0 1, 6 0 0
3,900
1, 9 6 0
3,900
1, 9 6 0
770 770
3,600 3,600
Horizontal type
Vertical type
Reflow type
Reflow type
(Long-life)
Reflow type (Low-profile)
Connector type
Other varieties are also available. Please inquire.
Note
Refer to P.488 for product specications.
Refer to P.489 for soldering conditions.
320°
60°
244°
13 rotations
±2%
±3%
±1%
2
3
4
1
5
6
Product Line
7
8
−
φ3.5 dia
φ3.5 dia with radius
100,000
1,000,000
10,000,000
φ3.5 dia
φ3.5 dia with radius
φ4 dia
φ3.5 dia
Packing Specifications
Tray / Taping
Reel size (Taping)
■Typical Specifications
Items Specifications
RDC40 RDC50 RDC90
Rated voltage
5V DC
Operating life
100,000 cycles 1,000,000
cycles
10,000,000
cycles
Total resistance
10kΩ
3.3kΩ (RDC9010006)
10kΩ (RDC9010007)
Operating
temperature range
−30℃ to +80℃ −40℃ to +120℃
Unit:mm
Outside29.4
Inside25.4
13hole
Series Packing
Specifications
Number of packages (pcs.) Tape width
(mm)
Export package
measurements (mm)
1 case /Japan
1 case /export packing
RDC40
Tray
770 770
ー
5 2 6 × 3 7 0 ×191
RDC501 1, 5 0 0 3,000
RDC502 1, 6 0 0 1, 6 0 0 370×280×92
RDC503
Taping
3,900 3,900
24 4 0 7 × 415 ×13 5
RDC506 3,600 3,600
RDC90 Tray 1, 9 6 0 1, 9 6 0 ー240×300×270
RDC401D07A
RDC506018A
RDC9010006
RDC9010007
RDC501051A
RDC501052A
RDC502012A
RDC503051A
RDC503052A
478
Resistive
Position Sensors
Rotary Type Linear Type
5.45
1
6.95 0.6
4-ø1
30.1 3.5
Mounting face
7.5
5
3
2T
3T
2T
1T
R5.5
6.5
2.5
4
-
0.8
5
11
ø3.5
3T
1T
2T
Term. No.
32
28
26.6
55
3.26.8
4.3 ø1.5
10
10.6
CCW CW
A
No. StylePhoto
1
■ Dimensions Unit:mm
2
RDC40
(Multiple turns type)
RDC502
(Vertical type)
3
4
RDC501
(Horizontal type)
RDC501
(Horizontal type, V3.5 dia with radius)
2
0.5
(2)
(0.5)(0.5)
(1.9)
0.1
3T
2T
1T 0.8
(5)
11.8
8
Mounting face
R5.5
ø3.5
2.5
11
R1.3
11
R5.5
ø3.5
5.45
1
6.95 0.6
4-ø1
3
0.1 3.5
Mounting face
2.5
4-0.8
5
5
3
7.5
6.5
2T
3T
2T
1T
0.45
1.5
R0.5
Detail
A
Rotary Type
RDC40
RDC50
RDC90
479
Resistive
Position Sensors
Rotary Type Linear Type
RDC40/RDC50/RDC90/Rotary Type
■ Dimensions Unit:mm
RDC40 RDC50 / RDC90
3T
2T
1T
CCW
3T
1T
2T
CW
Circuit Diagram
No. StylePhoto
6
RDC503
(Reflow type, V3.5 dia with radius)
R1.3
11
5
R5.5
ø3.5
4-ø1
0.8
0.1 2.75
Mounting face
2.5
6.78.2
5
3
7.5
6.5
1T
2T
3T
2T
R1.3
11
5
R5.5
ø3.5
4-ø1
0.8
0.1 2.75
Mounting face
2.5
6.78.2
5
3
7.5
6.5
1T
2T
3T
2T
7
8
6.78.2
6.5
2-ø1
5.5
ø5
3
ø4
2T
R5.5 2.2 0.8
Mounting face
R1.5
1T
5
1.2
8.5
11
2T 3T
6.78.2
6.5
2-ø1
5.5
ø5
3
ø4
2T
R5.5 2.2 0.8
Mounting face
R1.5
1T
5
1.2
8.5
11
2T 3T
RDC506
(Reflow type, low-profile)
RDC90
(
Reflow type, Long-life)
RDC503
(Reflow type)
5
ø3.5
2T
6.7
2.5
R5.5
0.1 2.75
0.8
8.2
6.5
4-ø1
3T
2T
1T
5
7.5
3
5
11
Mounting face
ø3.5
2T
6.7
2.5
R5.5
0.1 2.75
0.8
8.2
6.5
4-ø1
3T
2T
1T
5
7.5
3
5
11
Mounting face
6.78.2
8.8
2.5
ø3.5
11
5- 0.8
T1
T3T2
Dummy
3.2
0.8
6.77.0
0.2
ø1.0
8.0
4.1
2.0
ø6.5
Mounting face
488
Resistive
Position Sensors
Linear TypeRotary Type
Method for Regulating the Linearity
With rated voltage applied between terminals 1 and 3, the straight line which
connects the measured output values VB and VA at specied reference positions
B and A is assumed to be an ideal straight line, so that deviation against the ideal
straight line when the voltage applied between terminals 1 and 3 is assumed to be
100% can be expressed as a percentage.
(Mechastroke)
Position BPosition A
VA
VB
AB
Model RDC80
4T output
2T output
±3%
±3%
±165˚
±165˚
180˚(phase difference)
Output voltage ratio(%)
2. The center (0°)
is in the configuration diagram condition
1. Reference taper : 100% / 340˚
100
0
50
0˚
center
Model RDC40
Output voltage ratio(%)
0
0
5
100
VA
13 rotations
±1%
1. Reference taper : 90%/13rotations
2. VA is measured output value
Output voltage ratio(%)
0
0
5
100
VA
13 rotations
±1%
1. Reference taper : 90%/13rotations
2. VA is measured output value
Model RDC10 / RD7
1. Reference taper:100%/A
2. Index point (0˚) is 50% output point (RDC50/RDC90/RDCC0)
The center (0°) is in the configuration diagram condition
(RD6R1A)
Output voltage ratio(%)
Model RDC50 / RDC90 / RD6R1A / RDCC0
〔Total Resistance〕
The total resistance, with the shaft (lever) placed at the end of terminal 1 or 3, shall be determined by
measuring the resistance between the resistor terminals 1 and 3 unless otherwise specied.
〔Rating Voltage〕
The rating voltage corresponding to the rated power shall be determined by the following equation. When the
resulting rated voltage exceeds the maximum operating voltage of a specic resistor, the maximum operating
voltage shall be taken as the rated voltage.
Resistive Position Sensor
E=√
P
・R
E:Rated voltage
(V)
P:Rated power
(W)
R:
Total nominal resistance
(
Ω
)
Resistive Position Sensors / Product Specifications
Series ABC
RDC50 333.3° ±16 0 ° ±2%
RDC90
80° ±30°
±3%
260° ±12 2 °
RD6R1A 320° ±15 5 ° ±2%
RDCC0 30° ±15 ° ±2%
Resistive Position Sensors / Measurement and Test Methods
475
Resistive
Position Sensors
Rotary Type Linear Type
Resistive
Position Sensors
● Rotary Type
● Linear Type
477
483
List of Varieties
Resistive Position Sensors
Type Rotary Type
Magnetic Rotary Type
Series
RDC40 RDC50 RDC90 RDC80 RD6R1A RDCC0
Photo
Direction of lever
Horizontal Vertical
Horizontal Vertical
Effective electrical angle (°)
5,400
(15 rotations) 333.3 80, 260 3 4 0( 1- p h a s e )
3 6 0( 2 - p h a s e ) 320 30
Linearity guarantee range (°)
4,680
(13 rotations) 320 60, 244 3 3 0( 1 - p h a s e )
3 6 0( 2 - p h a s e ) 310 ±15
Travel
ーーーーーー
Operating temperature range
−30℃ to +80℃ −40℃ to +120℃ −40℃ to +85℃ 0℃ to +50℃
Operating life
100,000 cycles 1,000,000 cycles 10,000,000
cycles 20,000 cycles 500,000 cycles 10,000,000
cycles
Available for automotive use
●●●●●ー
Life cycle (availability)
Mechanical
performance
Operating force
ーーーーーー
Rotational torque
1.96mN・m max. 2mN・m max. 1 0 m N・m m a x . 1 0 0 m N・m 5mN・m max.
Electrical
performance
Total resistance
tolerance
±30% ±20% ー
Linearity (%)
±1 ±2 ±3 ±2 (320°) ±2
Rated voltage
(V DC)
5
Environmental
performance
Cold
−30℃ 240h −4 0 ℃ 168 h −40℃ 240h
Dry heat
80℃ 24 0h 12 0 ℃ 16 8 h 8 5 ℃ 16 8 h 85℃ 240h
Damp heat
60℃,
90 to 95%RH 240h
60℃, 90 to 95%RH 96h 80℃,
90 to 95%RH 96h
60℃,
90 to 95%RH 240h
Terminal style
Connector Insertion / Reflow Reflow Connector
Page
477 480 4 81 482
Resistive Position Sensors Measurement and Test Methods ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ 488
Resistive Position Sensors Soldering Conditions・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ 489
Resistive Position Sensors Cautions ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ 490
Note
● Indicates applicability to all products in the series.
489
Resistive
Position Sensors
Linear TypeRotary Type
Reference for Manual Soldering
Example of Reflow Soldering Condition
Reference for Dip Soldering
I max.
H max.
300
200
100
Room
temperature
Pre-heating
E max.
Time(s)
Temperature(℃)
A
B
C
D
F max.
G max.
Series Tip temperature Soldering time
RDC50, RDC90, RDC80 350±5℃ 3 s
RDC10, RD7 350℃ max. 3s max.
Series
Preheating Dip soldering
No. of solders
Soldering surface
temperature Heating time Soldering
temperature Soldering time
RDC501, RDC502 10 0 t o 15 0 ℃ 1minute max. 260±5℃ 10 ±1s 1 time
RD7 10 0 ℃ m a x . 1minute max. 260℃ max. 5s max. 1 time
+1
0
1. Cleaning Cleaning should not be attempted.
2. Type of solder to be used Use cream solder that contains 10 to 15 %wt flux.
3. Number of solder applications - apply solder only once
4. Recommended reflow conditions
1. When using an infrared reflow oven, solder may not always be applied as intended.
Be sure to use a hot air reflow oven or a type that uses infrared rays in combination with hot air.
2. The temperatures given above are the maximum temperatures at the terminals of the sensor when employing a hot air
reflow method. The temperature of the PC board and the surface temperature of the sensor may vary greatly depending
on the PC board material, its size and thickness. Ensure that the surface temperature of the sensor does not rise to 250℃
or greater.
3. Conditions vary to some extent depending on the type of reflow bath used. Be sure to give due consideration to this prior to use.
Notes
Resistive Position Sensors / Soldering Conditions
Series A B C D E F G H I No. of
reflows
RDC503
RDC506 250℃ 230℃ 18 0 ℃ 15 0 ℃ 2min. ー5s 40s 4min. 1 time
RDC90 255℃ 230℃ ーーー2min. 10 s 1m i n . 4min. 1 time
RDC80 250℃ ー18 0 ℃ 15 0 ℃ 90±30s ー10 ±1s ー ー 1 time
