For more information, please visit the product page. date 05/20/2014 page 1 of 7 SERIES: C14 │ DESCRIPTION: PANEL MOUNT ENCODER FEATURES • • • • • • 2-bit quadrature output compact rugged metal design 1 million cycle life multiple termination options IP65 rating option ELECTRICAL parameter conditions/description power supply 3.3Vdc input models 5Vdc input models supply current 3.3Vdc input models 5Vdc input models output open collector output code 2-bit quadrature, channel A leads channel B by 90° with clockwise rotation power consumption 3.3Vdc input models 5Vdc input models output resolution 4 ppr (16 cpr), 8 ppr (32 cpr) angle of throw 16 detent postion models 32 detent postion models min typ max units 3.168 4.75 3.3 5 3.432 5.25 Vdc Vdc 40 20 mA mA 132 100 mW mW 22.5 11.25 ° ° PUSH SWITCH SPECIFICATIONS parameter conditions/description rating 12 Vdc at 50 mA min typ contact resistance isolation voltage for 1 minute max units 200 mΩ 250 Vac MΩ insulation resistance 100 operating push force 3.5 4.5 5.5 N travel 0.2 0.5 0.8 mm bounce 10 push switch life 1,000,000 ms cycles ENVIRONMENTAL parameter max units operating temperature conditions/description min -10 70 °C storage temperature -20 80 °C vibration 10~55Hz with a peak to peak amplitude of 1.5mm shock half sine wave for 11ms cold test at -20°C for 96 hours heat test at +80°C for 96 hours typ 50 cui.com G For more information, please visit the product page. CUI Inc │ SERIES: C14 │ DESCRIPTION: PANEL MOUNT ENCODER date 05/20/2014│ page 2 of 7 ENVIRONMENTAL (CONTINUED) parameter conditions/description temperature change test at -10~70°C for 30 minutes each humidity test at 40°C, 90~95% humidity for 96 hours RoHS 2011/65/EU min typ max units min typ max units 10 15 N N 0.2 0.6 N·cm N·cm MECHANICAL parameter conditions/description shaft load radial axial operational torque without detent with detent 0.2 0.4 mounting torque rotational life 100 N·cm 1,000,000 cycles 11 g weight OUTPUT WAVEFORMS &: 2XWSXW $ 2XWSXW % Ѝ 3RVLWLRQ 2XWSXW $ % 9㸸9 PD[ 9 PLQ 㸨7KH FRGH UHSHDWV IURP WR PART NUMBER KEY 9 㸸9 PD[ 9 PLQ C14XXXX - XXXX Input Voltage: “blank” = 5 V input 3 = 3.3 V input Base Number Detent: D = with detent N = without detent Waterproof: “blank” = standard A = IP65 Angle of throw: 16 = 22.5° for code change and 16 detent positions 32 = 11.25° for code change and 32 detent positions Push Switch: P = with push switch N = without push switch cui.com Termination: A = Ø0.5 mm holes B = 130 mm cable with connector C = with header I D = with header II E = horizontal PCB F = vertical PCB Shaft Diameter: 1 = Ø3.175 mm (1/8”) 2 = Ø6 mm 3 = Ø6.35 mm (1/4”) For more information, please visit the product page. CUI Inc │ SERIES: C14 │ DESCRIPTION: PANEL MOUNT ENCODER date 05/20/2014│ page 3 of 7 OUTPUT CIRCUIT 5V Input 3.3V Input 3LQ 1R 3LQ 1R 9 5 5 287387 $ 9 5 287387 $ 5 287387 % 5 5 6:,7&+ 6:,7&+ 287387 % 6:,7&+ 6:,7&+ *1' 5 *1' 㸨55([WHUQDO SXOOXS UHVLVWRUV .Ȑ 㸨55([WHUQDO SXOOXS UHVLVWRUV .Ȑ MECHANICAL DRAWING 5V INPUT, WITH PUSH SWITCH units: mm Ø6.0mm Shaft 0 3 ȭ 0 S Mounting Hole Dimensions s CUIINC ȭ & ȭ 0$'( ,1 -$3$1 PD[ 3LQ 1R KROH s ȭ ȭ s Ø6.35mm Shaft PD[ Ø3.175mm Shaft s PD[ s cui.com For more information, please visit the product page. CUI Inc │ SERIES: C14 │ DESCRIPTION: PANEL MOUNT ENCODER date 05/20/2014│ page 4 of 7 MECHANICAL DRAWING (CONTINUED) 5V INPUT, WITHOUT PUSH SWITCH units: mm Ø6.0mm Shaft 0 3 ȭ 0 S Mounting Hole Dimensions ȭ CUIINC s & ȭ 0$'( ,1 -$3$1 PD[ 3LQ 1R KROH s ȭ ȭ s Ø6.35mm Shaft PD[ PD[ Ø3.175mm Shaft s s 3.3V INPUT, WITH PUSH SWITCH units: mm Ø6.0mm Shaft 0 3 ȭ 0 S Mounting Hole Dimensions 0$'( ,1 -$3$1 PD[ 3LQ 1R KROH s ȭ ȭ s PD[ Ø6.35mm Shaft CUIINC s ȭ & ȭ PD[ Ø3.175mm Shaft s s cui.com For more information, please visit the product page. CUI Inc │ SERIES: C14 │ DESCRIPTION: PANEL MOUNT ENCODER date 05/20/2014│ page 5 of 7 MECHANICAL DRAWING (CONTINUED) 3.3V INPUT, WITHOUT PUSH SWITCH units: mm Ø6.0mm Shaft 0 3 ȭ 0 S Mounting Hole Dimensions s ȭ & ȭ CUIINC 0$'( ,1 -$3$1 PD[ 3LQ 1R KROH s ȭ ȭ s Ø6.35mm Shaft PD[ PD[ Ø3.175mm Shaft s s MECHANICAL DRAWING, TERMINATION OPTIONS units: mm OPTION A: Ø0.5MM HOLES OPTION B: 130MM CABLE WITH CONNECTOR ȭKROH &211(&725 $03 31 Mounting Hole Dimensions s ȭ s ȭ Mounting Hole Dimensions PCB Layout tolerance: ±0.05 s ȭ ȭ ȭ cui.com PCB Layout tolerance: ±0.05 s ȭ OPTION C: HEADER II s OPTION C: HEADER I ȭ For more information, please visit the product page. CUI Inc │ SERIES: C14 │ DESCRIPTION: PANEL MOUNT ENCODER date 05/20/2014│ page 6 of 7 MECHANICAL DRAWING, TERMINATION OPTIONS (CONTINUED) units: mm OPTION E: HORIZONTAL PCB PCB Layout tolerance: ±0.05 ȭ ȭ 3LQ 1R W 0$'( ,1 -$3$1 0RXQWLQJ ERDUG ȭ CUIINC 0$0$& OPTION F: VERTICAL PCB PCB Layout tolerance: ±0.05 CUIINC Note: 1. Protects against ingress of water (IP65) from front side of panel only. cui.com No. Qty. Component 1 1 waterproof washer 2 1 panel 3 1 toothed lock washer 4 1 nut WATERPROOF MOUNTING 0;30$& ȭ ȭ W 3LQ 1R ȭ 0$'( ,1 -$3$1 For more information, please visit the product page. CUI Inc │ SERIES: C14 │ DESCRIPTION: PANEL MOUNT ENCODER date 05/20/2014│ page 7 of 7 REVISION HISTORY rev. description date 1.0 initial release 02/25/2009 1.01 applied new spec template, updated operating temperature, updated 3.3V PCB 05/20/2014 The revision history provided is for informational purposes only and is believed to be accurate. Headquarters 20050 SW 112th Ave. Tualatin, OR 97062 800.275.4899 Fax 503.612.2383 cui.com [email protected] CUI offers a one (1) year limited warranty. Complete warranty information is listed on our website. CUI reserves the right to make changes to the product at any time without notice. Information provided by CUI is believed to be accurate and reliable. However, no responsibility is assumed by CUI for its use, nor for any infringements of patents or other rights of third parties which may result from its use. CUI products are not authorized or warranted for use as critical components in equipment that requires an extremely high level of reliability. A critical component is any component of a life support device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or system, or to affect its safety or effectiveness.