RDC10 Linear Type The high accuracy space saving design contributes to reduced weight and size of sets Typical Specifications Items Specifications Rated Voltage 5V DC 50,000 cyclesRDC1010 200,000 cycles Operating life Total resistance 10k Operating temperature range 30 to 85 Product Line Travelmm Linearity 10 Length of lever mm Length of terminal mm 1.3 0.8 22 0.5 4.5 Model No. Drawing No. 2,940 RDC1010A12 1 2,400 4,800 RDC1014A09 2,100 4,200 RDC1022A05 900 1,800 RDC10320RB 1,000 2,000 RDC1047A03 Japan Export 980 2 32 4.4 47 2 Linear Type Packing Specifications Tray Number of packagespcs. 1 case /Japan 1 case /export packing Export package measurementsmm RDC1010 980 2,940 360x270x230 RDC1014 2,400 4,800 508x374x272 RDC1022 2,100 4,200 508x374x302 RDC1032 900 1,800 540x360x205 RDC1047 1,000 2,000 508x374x272 Model No. Rotary Type Notes 1. RDC1014, RDC1022, RDC1032 and RDC1047 Series can be for automotive use. 2. RDC1014, RDC1022, RDC1032 and RDC1047 Series are available in different varieties to the above. See Product Varieties (P.463). Resistive Position Sensors 14 Minimum order unitpcs. Refer to P.463 for product varieties. Refer to P.466 for product specifications. Refer to P.467 for soldering conditions. 461 RDC10 Linear Type Dimensions Photo Style RDC1010 C point 13.65 12 10 5 4.35 max 3.65 2 6.5 1.6 O 1.6 Ho O 1.6 le Ho O 1.7 le 3.2 6 No. Unit:mm 3- 0.6 4 0.3 1T 3T 2T 7.6 RDC10 A R 0.8 2.1 o2.2 B Terminal No. hole ole .7 h o1 2.52.6 0.4 5 6.9 6 0.6 5 4 3- 1.3 1.5 Resistive Position Sensors 2.3 min O 1 4- 0.8 0.8 2.1 O1.5 0.6 max 1 1.3 0.445 10 min Rotary Type S+2 4.54.4 S/2+3.4 2 S+9.5 0.3 max. 3.6 max. 3.8 max. Linear Type S Mechanical travel Caulking height RDC10 2T 3T 1T 462 3T 1T 2T 2 C RDC1010 Dimension S A B C RDC1014 14 19 15 10 RDC1022 22 19 15 14 RDC1032 32 29 25 19 RDC1047 47 37 33 26.5 Model 0.4 Circuit Diagram 3T 1T 2T Sizes in are applicable to RDC1047 only. Linear Type / Product Varieties In addition to the products listed, we can accommodate the follow specifications. Applicable to RDC1014, RDC1022, RDC1032, RDC1047 only Lever Variety Sizes in are applicable to RDC1047 only 4.5 4.4 Length Unit:mm 3.7 3.6 3 2.9 2.5 2.4 o2 o2 o2 Terminal Variety For printed wiring Unit:mm o2 o1.5 o1.5 C o1.5 0. o1 3.0 3.7 3 3 2.5 0. 4.5 Dimensions C o1 0.8 0.8 o1 . 5 For lead wiring Unit:mm 1.5 2 4 (5) 1.9 L2 0.4 5.5 Note Shows the specification recommended by Alps Alpine. Rotary Type Length L2 0.6 Dimensions Resistive Position Sensors Dimensions Linear Type 463 Type Magnetic Rotary Type Series RDCC0 Linear Type RDC1010 RDC10 RD7 Photo Direction of lever Vertical Vertical Horizontal Effective electrical angle 30 Linearity guarantee range 15 Travel 10mm 14mm 22mm 32mm 47mm Operating temperature range 0 to 50 Operating life 10,000,000 cycles 50,000 cycles 200,000 cycles 100,000 cycles Available for automotive use -30 to 85 8mm 9mm 12mm 8mm 12mm -40 to 105 Mechanical performance Rotational torque 5mNm max. Total resistance tolerance 30% 20% Linearity% 2 0.5 1 0.25N max. 2N max. Rated voltage V DC 5 12 Cold -40 240h -40 96h Dry heat 85 240h Damp heat 80 240h 90 240h 60, 90 to 95%RH 240h Terminal style Connector Page 460 Insertion 40, 90 to 95%RH 96h Lead terminal/Insertion 461 105 96h Linear Type Environmental performance Rotary Type Electrical performance Operating force Resistive Position Sensors Life cycle (availability) Insertion 464 Resistive Position Sensors Measurement and Test Methods 466 Resistive Position Sensors Soldering Conditions 467 Resistive Position Sensors Cautions 468 Notes 1. The RD7 series are used to detect vehicle headlight angles. 2. Indicates applicability to all products in the series. 455 Resistive Position Sensors / Product Specifications Method for Regulating the Linearity Model RDC10 / RD7 1. Reference Reference taper taper :: 90%/13rotations 90%/13rotations 1. 2. VA VA is is measured measured output output value value 2. With rated voltage applied between terminals 1 and 3, the straight line which connects the measured output values VB and VA at specified 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. 100 100 VA VA 1% 1% Output Output voltage voltage ratio% ratio% Model RDC40 55 00 00 VA Position B Position A Mecha stroke 13 rotations rotations 13 VB B A Model RDC50 / RDC90 / RD6R1A / RDCC0 Resistive Position Sensors Output voltage ratio% 1. Reference taper100/A 2. Index point (0) is 50% output point (RDC50/RDC90/RDCC0) The center (0 ) is in the configuration diagram conditionRD6R1A Series RDC50 Rotary Type RDC90 RD6R1A Linear Type RDCC0 A B C 333.3 160 2 80 30 260 122 320 155 2 30 15 2 3 Resistive Position Sensors / Measurement and Test Methods Resistive Position Sensor Total Resistance The total resistance, with the shaftleverplaced at the end of terminal 1 or 3, shall be determined by measuring the resistance between the resistor terminals 1 and 3 unless otherwise specified. 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 specific resistor, the maximum operating voltage shall be taken as the rated voltage. E= PR ERated voltageV PRated powerW RTotal nominal resistance 466 Resistive Position Sensors / Soldering Conditions Reference for Manual Soldering Series Tip temperature Soldering time 3505 3+10 s 350 max. 3s max. RDC50, RDC90 RDC10, RD7 Reference for Dip Soldering Preheating Series Dip soldering No. of solders Soldering surface temperature Heating time Soldering temperature Soldering time 100 to 150 1minute max. 2605 101s 1 time 100 max. 1minute max. 260 max. 5s max. 1 time RDC501, RDC502 RD7 Example of Reflow Soldering Condition Cleaning sensors should not be attempted. Type of solder to be used Use cream solder that contains 10 to 15 %wt flux. Number of solder applications - apply solder only once Recommended reflow conditions Resistive Position Sensors Temperature 1. 2. 3. 4. 300 A B 200 C D 100 Rotary Type Times Room temperature Pre-heating E max. G max. Linear Type H max. F max. I max. A B C D E F G H I No. of reflows RDC503 RDC506 250 230 180 150 2min. 5s 40s 4min. 1 time RDC90 255 230 2min. 10s 1min. 4min. 1 time Series Notes 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. 467