ICGOO在线商城 > PSM01-082A-103B2
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PSM01-082A-103B2产品简介:
ICGOO电子元器件商城为您提供PSM01-082A-103B2由Bourns设计生产,在icgoo商城现货销售,并且可以通过原厂、代理商等渠道进行代购。 提供PSM01-082A-103B2价格参考¥97.86-¥97.86以及BournsPSM01-082A-103B2封装/规格参数等产品信息。 你可以下载PSM01-082A-103B2参考资料、Datasheet数据手册功能说明书, 资料中有PSM01-082A-103B2详细功能的应用电路图电压和使用方法及教程。
| 参数 | 数值 |
| 产品目录 | |
| 描述 | POT SLIDE 10K OHM .5W 100MM滑动电位计 10Kohm 20% 8.2mm Snap-In Connector |
| 产品分类 | |
| 品牌 | Bourns |
| 产品手册 | |
| 产品图片 |
|
| rohs | 符合RoHS无铅 / 符合限制有害物质指令(RoHS)规范要求 |
| 产品系列 | 滑动电位计,Bourns PSM01-082A-103B2PSM |
| 数据手册 | |
| 产品型号 | PSM01-082A-103B2 |
| RoHS指令信息 | |
| 产品 | Slide Potentiometers |
| 产品种类 | |
| 功率(W) | 0.5W,1/2W |
| 功率额定值 | 500 mW (1/2 W) |
| 包装 | 散装 |
| 商标 | Bourns |
| 大小/尺寸 | 矩形 - 5.984" 长 x 0.512" 宽 x 1.378" 高(152.00mm x 13.00mm x 35.00mm) |
| 安装类型 | 通孔 |
| 容差 | 20 % |
| 封装 | Bulk |
| 尺寸 | 35 mm W x 152 mm L x 13.2 mm H |
| 工作温度 | - 10 C to + 55 C |
| 工厂包装数量 | 70 |
| 标准包装 | 70 |
| 电压额定值 | 250 V |
| 电阻 | 10 kOhms |
| 电阻(Ω) | 10k |
| 端接类型 | Snap In |
| 系列 | PSM |
| 行程 | 100 mm |
| 调节类型 | 顶部,电机,100mm |
| 锥度 | Linear |
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PDF Datasheet 数据手册内容提取
NT *RoHS VCEOARVMSIAPILOLINAASB LE Features NT MPLIA n Long life carbon element O HS C n Assortment of resistance tapers Ro * n 60 and 100 mm travel lengths n Touch sense lever n PC terminals or snap-in connector option REE D F LEA PSM Series Motorized Slide Potentiometer (25.10.008) SES nttE aa.d.nnl. e.Rdd(.c2.6aae..14t.rrs.0.r0dd2.ii.)sc .RR.ta.aM.eel.n3 .ssC .cxii.ss.he.tt. aaa...rnn1.a.ccK.c.ee .to. .eRT.h.ora.mi.lsne..stgr2i acet0nos c o1eh .mm..e±sg 2mo0ha %mx.LVEREAoRDH SISF ORCNEOSE MAPRLIE APPNTCr*o Tdeurcmt i0Dn.5a0imls (e-27.n 171.9s005i)0o nmsm Travel 82.35 (38.11.809) 51.2Insulation R0e.5sistance @ 250 VDC M3 x (.020) (3.242) (12.50.068) (2.016 D)ie ..l.e.c..t..r.i.c. .W.2.( ..P0.i2L.t0C.h.)S.s...t.a..n..d..in1g0 0V (om.62l.3t0e6a)ggoehms min. 2 PLCS. (13.85.274) (.62.306) ..............................................250 VAC Standard Taper ..................Linear, Audio (.93.504) (38.105.00 ±± 0.0.520) PPoowweerr RRaattiinngg -- LAiundeiaor ( ..1...53..1...02..)...................0.0.2.55 wwaatttt (.93.504) (41.2702.40 ±± .00.250) (1.531.02) A + - Slider Noise .........................47 mV max. Motor OR Touch Sense Track B - + 60.0 ± 1.0 100.0 ± 1.0 (2.362 ± .039)TRAVELConductive Resistance (3.937 ± .039)TRAVEL 18. 5 Snap-in Connector .........2 ohms max. 18.5 4(..020.709) (.(71.52487 8..510))P C TTTRRer >≤m 33in00akkl oohhmmss ..8.....2.0 .±.. .01..5 3%0 oohf mTRs mmaaxx.. 4(..020.709) ((.1.758427..0851)) 8.2 ± 0.5 (1.532.20) (.62.438) 33 BA==++ 11 (.157) (.315) (.323 ± .020) (.157) (.315) (.323 ± .020) N 15.8 ± 0.5 Environmental Characteristics (.622 ± .020) Operational Life ..............100,000 cycles TR Shift ....................2.3...8.............±15 % 23.8 Operating Temperature(.9 R37a)ng35e.0 (.937)35.0 2 .................................-10 (°1.C37 8t)o +55 °C (1.378) 1.5 Resistance to Solder Heat .............±5 % (.059) 3 1 1.0 (.039) Mechanical Characteristics B A 1.2 B A (-) (+)12.4 (.047)DIA. HOLES M e ..c.h..a..n..i.c..a..l. .T(.-.r).a.vSeele P(+r)o(1.4d28.u48)ct Dimensions (.488) (.20.709) 3' 1' Operating Force Mounting Hole Detail 2' 100 mm Travel .....................30-130 gf N 6.3 60 mm Travel .....................10-110 gf 127.5 ± 0.1 1.5 +0/-0.1 (.248) Stop Strength .........................5 kgf min. (5.020 ± .039) (.059 +0/-.004) 87.5 ± 0S.1haft Wobble 82.5 ± 0.1 DIRECTION 1.2 ± 0.05 (3.445 ± . 0391)00 mm Travel ...D.I.R..E.C.T1IO.N3 mm p-p max. (3.248 ± .039) OF LEVER (.047 ± .002) 51.7 ± 0.1 OF LEVER 38.8 ± 0.1 43.7 (2.035 ± . 039 ) 60 mm Travel .........1.6 mm p-p max. 3 (1.528 ± .039) (1.720) 2 T33' DIA. HOLES 2.0 +0.2/-0 S 2 PoMWLlCdSaae.nvreuin a.g.l. ..C....o....n....d....1122..it''..i32o56n00 °°CC ±±55 °°CC ffoorr 35 sseecc.. T3' DIA. HOLES(.027.09 ++0.0.20/8-/0-0)2 PLCS. 112'' DIA(.. 202.7 0P9L)CS. T (.079 +.008/-0) Wash .....................Not recommended 1.5 +0.2/-0 DIA. HOLES(.015.59 ++0.0.20/8-/0-0)7 PLCS.3.75 ± 0.1 DIA. HOLES(.059 +.008/-0)7 PLCS.3.75 ± 0.1 Motor Dri(v.1e48 ±C .0h0a4)racteristics (.148 ± .004) 11.25 ± 0.1 Rated Voltag1e1. 2..5. ±.. 0...1......................10 VDC (.443 ± .004) (.443 ± .004) Operating Voltage Supply ..6 to 11 VDC TERMINAL DETAIL Starting Current .................800 mA max. 2.2 Lever Speed @ 10 VDC (.087) ...................................20 mm/0.1 sec. MM DIMENSIONS: (INCHES) 3.5 3.75 1.00 (.138) (.148) (.039) 2.1 (.083) *RoHS Directive 2002/95/EC Jan. 27, 2003 including annex and RoHS Recast 2011/65/EU June 8, 2011. Specifications are subject to change without notice. The device characteristics and parameters in this data sheet can and do vary in different applications and actual device performance may vary over time. Users should verify actual device performance in their specific applications.
71.0 81.0 51.0 61.0 (2.795) (3.189) (2.008) (2.402) M3 x 0.50 82.35 51.2 0.5 M3 x (.020) (3.242) Applications (12.50.068) (2.016) 2( .P02L0C)S. (.62.306) 2 PLCS. (13.85.274) (.62.306) n Audio mixing consoles 71.0 81.0 51.0 61.0 (2.795) (3.189) (.93.504) n BroPadScasMt m iSxinegr cioenss(o38.l 1e05M.s00 ±± 0.o0.520t)orized Slide Po(1.531t.02e) ntiometer ((2.93.0.50048)) (12.50.068) (25.10.126) ((421..274020.420 ) ±± .2(00M ..2P00530.2L5 )0Cx)S. (.62.306) (1.531.02) M3 x2(0. 0P.52L00C)S. (13.85.274) (832.2.34M52o)tor A +OR(-.62.306) B - + 60.0 ± 1.0 100.0 ± 1.0 TRAVEL TRAVEL (2.362 ± .039) (3.937 ± .039) 18.5 18.5 Product Dimensions(.20.709) (.(71.52478.51)) (.93.504) (38.105.00 ±± 0.0.520) (.20.709) ((.1.75427.851)) (1.531.02) (1.532.20) (.93.504) (.62.438) (41.2702.40 ±± .00.250) 3 A=+ (1.531.02) 1 Motor A +OR - PC Terminals - 60 m(m.41.50 7T)ravel(.83.105) (.382.23 ±± 0.0.520) (26.306.02 ±± 1.0.039)TRAVEL (.41.507) (.83.105) (.382.23 ±± 0.0.520) N (31.0903.70 ±± .10.309)TRAVEL 3 B=+ 1 B - + 18.5 15.8 ± 0.5 18.5 (.728) (.622 ± .020) (.728) 13.2 2.0 7114.0.5 81.0 2.0 14.5 (.520) 6.3 3 A=+ 1 (25.10.008) (12.50.068) (25.10.126) (26.14.002) 2(M .P003.2L5 0Cx)S. (2.933.87) (13.53.708(.)62.306) M(3.41 x(.5.0072(7)0. 0P9.52L)00C)S.(2(.(.75.8397.15105))) (13.85.274) ((83.2.328.234.2352 )±± 0.(0.352.01)89) (2.933.87()13.53.708) (.62.306) 1.0(.10.559) (.41(.5.0077)9) ((..35837.1015)) (.382.23 ±± 0.0.520) 21 (.16(52.2.284 N ±8± ) .00.250) 3 B=+ 1 (.039) (25.10.008) M3 x(.00(.22560.14).0022 )PLCS. (.62.306) (.93.50M4)ouMn3t xin(g0.0.52 H00)o(227 .lP17e.9L05 CD)S.etail(26.306.02( 3±±58. (41.17(304....8.200375510.79 50±±±.9)00 )00. T0±±..R113 0.A90.)52V(0E1.()7L1.8524.758.51)) (38.11.809()B-) DOIFR L(EA+EC)VT(E1.I4OR28.N48) (1.531.02) (.62.306) (.93.504) 38.8 ± 0.1(5(13.208.27224.0.558 ( ± ±3±± 1 .. 00090.0.303.1139.709) ±)± .10.3049M(3)4.1o7.T27tR(02B(o-.A.4)20r0V .7 ±0±E9 .L)00.250) ((A(A+1.1.75)84(2(7.2..1.5895143+2)3)8..8748)) (1DO-3(B.-53IF)R .7L0E8EC)VTEIORN ((.A+0(1).510.(591..442 27++8 .± 0048± //)0 --.0..000.010524)) ((1.1.553312..0220)N) ((..1020(.4.7.206279.4))38D)IA. H(O.62L.43E8S) 3' 3Motor (B-) (A+(2.)A9(3=31..4+8728().1483.)53.70AB8) +- OR21'-+' ((..1020.4.712079))D(.I10A.30.9 H)(O.10L.5E59S) 33' 2211'' (.93.504) (26.306.02( .±±41( (.531..002078..103.7)00599.00)) ±±T R0.50A.152V.00E()(1.L(1.75.848327...1585105))) (.382.23 ±±6 10.0(..01.525301.)02) (.93.504) S(.n93.50a4()2p5.10-.00i8n()2 6.3C06.02oT 33±±'n( 31.0n8..1030D5e9.00I)Ac ±±T. t R(H0.o301A.O.5209VrL003E (E).71.-LS07 8 ±2D±(1. 58M.I .0A10)0237.3..0 0 099Hx )(++ O(2((.(m0.(2T41.L.407.41100..0R(.5E.1720(.0.527.2320A70S2m.95/87602005-.7).5V/00(.4)14) -90).E±0 .0 0) ±021L T±)25. .0)P2 .59r003 L a.2P++95C00.L)v0S).C20.e(S((/8(1.1..-.7.l5/8383804-27.1.1.0.00585155)))))7 PLCS(.((1..1.5314311.44.7.028235)( 5 . ±±112262± ± ''.3 ..000 060(.00()B1.-.4143)8))2.23 ±±( 30.80..1152.8009)().(3A+82).23((2.1. 94±±32(38 1...0.5874803.1))52.020)()13.53.708) (1.532.(20.93).504)M3 (x.16(520..208. 52T33 ±±00' T33( .)N.00'62(.222.45730 .8P17)D).9L0I5CA)S.( .H31.O09L03E.70ST ±E±D (R .(.I1001A2M.37.0..59 09IDH2N) I((++8OAA(23T40. LL1.05.±R8.. .04E27 H201 7AD3.4S02/8.0.OV75-55E4./30(0LE - T .±±9±±0 ±E0LA±1 ) )S 50.D0.I ..333002L0059.M.I(1313.2 A .5P++o9900.2t0.L ))7)o0H..C09r20OS 1/8++L-8./0.0E-.05.0S20)/8(-7./(00-. 1(200P(53L.18.8)59L.2.11i72 C7n++.8) 02S(eP0.90.0.(().41 L.1.20)T314.5C1/80r.44-7S7.a/0823-).5c0 5 ±±1122BA)k± ± ''== ..700 0++0 .00P1.414DOL))CIFR SLE((B.(E.1.C.31483V1T.44.1E7.0I8235OR-5 5 ) ±±N± O ± 1122 ..00 0R''0.001.414+))(1.531.20)(2.11162(.3B0-6))DIA((... 320282.7 .0P239L )±±(CA+ (0.S2.)09.(.35231..408728()).1483.)53.708)T33' N ((..10(20..4.7162T07952E)).2R(8D (1N ±M.±I3.10 5A .8ID.30020N..9 I.288HAA5)0( OL.±±.) 10 H LD0..50E5O.E913SL(T)95E(A1)3.S33D20IM8.L272I(2Ao.4.00.5t.258 o 7 ±H. r±09±± O . 00++0.L0.30..1E0139.S209)/8)(-./00-10(5.1)594M.2 37++ o.2P0.700t.Lo20)C/8r-S/0-.0BA)==7++ PLTCSAB((..1.3333141'.447.+-8235 5 ±±O± ± 1122 ..R00 0''0.001.414-+DO))IFR LEECVTE11IORN D(.0I(1AB.510.(.=59. .42022 +7++.7 0P± 009±L //)0 --C.0..00S0.0105.24)) N (22111.'62'.438) T 51.0 (2.008) 61.0 M3 x(.00(.2250.4)022 )P(L13C.53S.70.8) (.62.306) (.41((.52.07207.17.7)0.9905)) M3 (x(1.5.4837(..10.51005.)52)00)2 PLCS.(38.474.55 ±± 0.0.13(9.3)82(.3238. 11±±.8 00.90.)520) DI(R13E.53C.7T08I)ON (.62.306) (3.1.7458) 4(..020.709)3' (((.51.(71583.4220(7.8..(1.08272510.2.)204.0)03.5.858 091 ±3 ±)±± )S . 000.e0.3.113r9(v9).31o).3 5T8r)ack 8.2 ± 0.M5otor 1DO'AIFR LEEC+VTEI(OR1.5N32.20-().0(1.510.59.42 7++ ± 00±( //.0 --16.0..00520.010.25824 ±))± ( ..0062.2.45308)) (.62.438) (.20L.8i2n7)e Track (.93.504) (.93.504)(2.008()26.306.02 ±±( 31.028..103.0059.00) ±±T R0.0A.52V0E()1.L1(78242.6..58M350)6.302 ( x.±±41( (.5(31..00.2078..00103.7()0.2052959.000.))4) ±±0T2 2R0. 0)PA.52LV0CE()(S1.L(1.75..848327...1585105))) (1.531.02)(.62.306) (.382.23 ±± 0.0(.1.525301.)02) (.52.2(8.893).504)M3 x3('0.0.252'00)1C'2O TPN(L.N93C1E.50ST33C4(.'23)T1.O09R303D.70I A ±± . . 10H.3O0(9B-L))E((TAS+41R.)D27(A.I020AV2.470.E. 09 ±LH±( (++3O .12000..L0095..2.05E2003103S/8.7.)075- /0(( ± -.±±±1.00 71 . 8)5100.2.0.259.3.58013 9)P++9)(0.L)0.(T.C414201R(.5S../802720A7-./020.7)-V0.4S090E )O) ±LL±7LE . D00(AP1.2ED35L.0R53 C(F).7 .S0RM0((81((.((.1.5E1.).107.7.1.583859314E4.42017.12. .44.0758++57.515 823± )005))± 5 // ±±11220 --± . ± ''0..0 ..0000 0.00105.0021.4414O))))F SLF(HEN.30VR2292E I 8(PN(.R1.B5 5LKx3 L1Cx -.A(.02T S2.7C)3U.7(8.2KB662.23).3)E0 6±±)( 0..062.52.4308)) (1.531.02) 15.U8 L± 100(C.1.505A372B. 20AL)WET33'G 26(.1652.28 ±± ( ..00(62..2T.41530E85))R7(1)M3.58ID2N.I3388AAM L.±±o H tD0.o0OT.rE13LT(9E.A)3SDI1LI(5A.)T0.2 7oH.09uO cM++L0.hE0So.S 20OSLt/8o(LE-e./33(0Dr0A-M.1n200(5ED.1os.8)594R2 tBA.e7F2 o37 ++==R)Mr .2P0.T7++E007(.rLE20).a0C3/85c-2S/0-3k.0A B±) 7.L0 iP2+-n0Le()CO1 S3SRTF.(H53((.r.3.1.0a.7R31422019-+28c.44 I 7.8(PN.)BA823kB5 5LK=x 5 = L ±±Cx -± ++A. ± T 1122S2 ..7C00 0U''.70K.0011B621.414))'E))B - OR +DIA(.. 202.7 0P2911L)CSU.L 1N0C0A7B( 3.AL1.WE7458G) 26 33' ((1.0..T2003o.80913u)S)cehr v(S.o31e .3Tn58rs)aec kTrack T 2211'' (.079) (.571) 2.0 14.5 (.622 ± .020) N (.41.507) (.83.105) (.382.23 ±± 0.0.520) (13.53.708) (.20.958) ((1.1.9755.89.90155)) (.41(.5.0077)9)((.7.202..9495853)) ((..5837.1015)) (.3822.( 23.DP20 ±±LI.7A0 C90..0S).52.0) (((1.1.53523.253.2.820.780)8)) 3'2'(1N.C62'.4O3T8N)N1EC2TOR3(3.1.7458) (B-)(A+) 3 D IMLEiNn(eS(1.0. .20IT03O.8093r133a'N))cSk(.:0 (1(.5.10.3159.4.32 (57++8I ± 00N)± //M0 --C.0..000HS.M0105e2E4)rS)v)o NTrack 21 (.62.438) 11' T 35.0 2' Servo Track (1.378) S(O1L3.LE53DA.70ED8R) F RME7E05 SF(H.30R(229.2 I 208(PN..9B5 5LKx8 LCx -)A.T S27CU.7KB6))E (11.955.9.9015) UL 10C0AS7B pALeWEc(G(i.7.20fi 232..9c49'56853a))tions are subject to cha2n( .DPgT20LIo.7eA0C9 u.wS)c.ihth Soeunt sneo Ttircae2c1.'k' The device characteristicsS OaLLnEDAdED pR Fa RMrEa7Em05eters in StFhH3iR2s2 I (N.dB5Ka Lx-tAT a7CU KsB)hEeet can and do vary UUinLs 1ed0rCi(0fs.Af77 eBs8 ArLh5eWE)onGut l2ad6p vpelircifayt iaocntsu aaln dde avcictue apl edrefovricmea pnecref oinrm thaenTicr es pmeacyifi vca aryp polvicear ttioimnse.. CONNECTOR (.098 x .276) N 6.3 2 PLC1S.5. +0/-0.1 (.248) Touch Sense Track 5.8 (-)(+) (.059 +0/-.004) (.228) 3'2'1' T 1 2 3 B A 1.2 ± 0.05 N (.047 ± .002) T CONNECTOR 6.3 1.5 +0/-0.1 (.248) 5.8 2.5 (-)(+) 2.5 (.059 +0/-.004) (.228) 3'2'1' T(1.0928)3 B A15.0 (.098) 1.2 ± 0.05 2.0 (.591) 7.45 (.047 ± .002) (.079) 19.95 (.293) 2 DPLIAC.S. (.785) 2.5 2.5 (.098) 15.0 (.098) 2.0 (.591) 7.45 (.079) 19.95 (.293) 2 DPLIAC.S. (.785)
71.0 81.0 51.0 61.0 (2.795) (3.189) (2.008) (2.402) M3 x 0.50 82.35 51.2 0.5 M3 x (.020) (3.242) (12.50.068) (2.016) 2( .P02L0C)S. (.62.306) 2 PLCS. (13.85.274) (.62.306) 51.0 61.0 (27.17.905) (38.11.809) (2.008) 0(.25.402) 6.0 M3 x (0.0.5200)2 PLCS. 6.0 M3 x(.020)2 PLCS. (.236) (.236) Motor 9.0 9.0 (.354) 60.0 ± (13.8.0105.00 T±±R 0.A0.52V0E)L (1.531.02) (.354) 10P0.0S ± 1M.0(41 .T27SR02A.40V e ±±E .L00r.25i0)es Motorized Slide(1.5 31.P02)otentiome(.93t.50e4)r (38.105.00M ±±o 0.t0o.52r0) AB +- O(R1.531.02-+) (.93.504) (41.2702.40 ±± .00.250) (1.531.20) Motor AB +- OR -+ (2.362 ± .039) (3.937 ± .039) 18.5 Product Dimensions18.5 (.20.709) (.(71.52478.51)) ((272.717.17.90.9505)) (832.2.3452) ((383.811.11.80.8909)) Snap-in Con(n.20e.70c9)tor - ((6.1.750427.8 51m)) m Travel (1.532.20) (.62.438) (26.306.02 ±± 1.0.039)3TRAVE1L8.5 A=+ 1 100.0 ± 1.0 TRAVEL 3 BA==++ 1 (.41.507) (.83.105) ((.93.93.50.5404)) (.382.23(2. 9±±(3(13 3.10..873085..)8552.27.20474())1)3.53((.740148.127.)270202.40.4 0 ± ± ± ± . 00 .00.25.2050))(832.2.3452) ((1.51.3513.102.02)()(.62.62.30.3606)) (.41.507) (25.10.008)(.83.105) M3 x((.3.8002(.2.252360. 14)±±.0 (020.22.0 9.)P3523L.087C())1S3M..53o.70t8o)r (.62.30(6.16)52.28 N ±± .00.250)1AB.A5 +-+OR -+- M3 x(.(410.(0.5..05220700.7)0)93)(227 .P17.9L05C)S((..(1.75.48327..185105))) B=+ (.382.23 ±± 0.0(.3528.011).809) 21 (.62.306) (3.937 ± .039)(.41(.5.0207.7)09) (((1.1..75838427.1..058515))) Motor(.382.23 ±± 0.0.52A0) + - (1.532.20) (.1652.28 ±± ( .N.0062.2.45308)) 33 Line Track 211 (.93.504) (27.17.905)(31.09(0313T33.7.085' ±.2±7 4 .10)D.30I9A()4.1 .HT27RO02A.4L0V E ±±SE .L00(..205207.)09 (((++83230.2.(05.8.2.01.4.2017734384/8.2.5275-.55/580) - ±±)±±0 )(0.0.30028...1313 11P99.80L))9C)S. (B-) 1122'' DOIFR L((EA+(E1.C(53)V313T1(.1.09E.1.I02094O03R2)03(8.7.N.0.74862 0 ± ).3± ±0 ±6 . 10 .)10.30.3909))(T(.T41.R41(R.5(.A0.5207.A0207V.7)V0.7)E90E9L)L) ((((1.(1.(.71.51.838.745283874.1.2.7058.1.51.505851)5))))) T33' (B-) ((.3.8328.223.23 ±± (±±A+ (0. (2.)00.(92..039152.31352.33.0872.50878D()M).2()14).I3188.A3(53. (o1.53S.±±(51..7 .350.7H 932t3800.Mc.280.5Oo20.).020)o134)hL()rt)95oE(1e)3.rS208.m272(2.4.00.5258 7a ±. ±09±± .t 00++0.i0.3c0..10139.209s)(./8)10(-/(.0.4-16.12(160(7(52..16252).54).262.8.4.22 37D (38.4+N ±8 (3. N.2± ±8I10P0.7 )±A100 . ).3.L00 .02.3).0090C .2/9H5.2)-S05()0O0(.).10.()L102.5E5.56.953S90)6AB).02( .±±41( (.53+1.-.002078..103.7)0O0599.R00)) ±±T R-+0.0A.112252V''0E()(1.L(1.7DO5(.84B832-7IF.)..158R510 5L))E)ECVTEIORN D((.A+0I(1A).510.((.L59.1. .420422 2i7++.78 n0.P± 00948±333L //333e))0 --MC.0..0 0S0o.T010t5.o24r(r.))a382.c23 k±± 0.0((.R1.525N301.1)023))D 5(I(.0.M.1020(.4.7.E206279N.4))3BA8SABD(==).==II10++AO++.30.N9 H)S(O.0:L 5BE9S)(I-NMCOHMRES+) 21112111 (.93.504) Touc33h' STe(n31.09s03e.70 ±±T .10r.3a09c)(.(Tk4141R(.5..02720A702.7)V04.90E ) ±L± .00.250)(((1.1..75838427.1..058515))) (13.53.708)211''(.382.23 ±± 0.0.520) (1.531.20) (.52.288()1.532.20) 3'2('.16152C'.28O ±T±N ( .NN.00621.2E.4530C8)2T)OR3 (B-)(A+) 333Motor SSOLLLeEinDArevED oR T(F .rRTM0(1a.5rE10.7ca59E.40BAk2c 7++5== k± 00±++ //0 --.0..000.010524B))(1S3F.(H53N-.30.7R220928O I 8(PN.)RB5 LKx LCx -A.T +S27CU.7KB6))E(2.11162.438) UL 10C0A7B ALWEG 26 3' T TouScehr vSoe Tnrsaec kTrack 21'' (.41(.5.0207.7)09D)IA. HOL((1.E.5834S7.1.0(515.)0)15.59 ++0.0.20/8-/0-0)7 PLCS.(((.1..314318.4427..823235 5 ±±±±± ± ..0.00 0200..003521.414.08))) (1.53(2(5(.15203.120.)8.202722724.0.5.058 5 ± ± ±±± ± . 00 .0.000.3.1.3139199))) (.16(52.62.28.4 3N ±8± ) .00.250) DO(BIF-R) LEECVTEIORN (T(.(0E.A+(10.5R1)10.(559.(.M.45941.2 47++ 82I ++8N± 008.±0048 //A)0 //--).--SL0..000.0 .0330D10.t51024Ea4))T)nADIdLIAa. rHNdONL ERS(e((.(.20..10(20(0s.7.(..40.720625.29062i79.8.49)s23.4))78 3+8Dt)).)aI0BAA0==n.8 ++H/c-O0eL)E 7ST PaLCbSl((.e.1.3141.447.8235 5 ±±± ± ..00 00.001.441))11 SHeo3r3'vw'o TTora Ockrd (eR(1r.237)8) 2121'''' Servo Track Output Chart SOLLEDAEDR F RME7E05 (1S3F.(H53.30.7R220928 I 8(PN.)B5 LKx LCx -A.T S27CU.7KB6))E (.20.958) U((1.1.L9755 .891.901505C))0A7B ALWEG 26 ((.7.202..9495853))3' Touch Sense2 ( T.DP20rLI.7aA0C9c.S)k. 21'' 3 (13.(5.892.3887 ±±) 30.05.13.09)(38.224.58 ±± 0.0.139) (14.37.270) 2 DOIFR LEECVTEIORN (.10.427 ± ± 0 ..00052)Resistance Resistance 2 PSM 01 - 08 2 A - 103 B2 2 ± 1 2 ± 1 T3T33'' (B-) ((1A+3.)D5(8D21.I.4IA882A8(. . .±±148H H .)0.3O0O.7L13L8E9E)SD)SDI(IA(.A0..20 .72H .7H09.O09 O++ L++L0.E00.E.0S20.S20/8(/8-(./-00./-010-(0(510.(.5.)1059.201)594.42 .7.2++2 0377 ++9P0. .2)0P0.)7.0L020D.(L20C)./8CI10/8-SA/-0S.3/-00..-09. 0H))()O.7107L .5P E5P9LSL)CCSS.. 1121122'''' (3.1.7458) DDIIAA(.(. .202. 202.7 0P.7 90P9L)L)CCS33S.'. 1(125O1250000,,,0h000,,,000,m00000000000s000( 0()1. 0. .2003.80913)) (.31.358) C1251251o0000000d2223334e 11' MD L eeon P0sdg1iSget M=nhl TNTa o1=tuof0 PMmrT0 or obamtteevomrner tli z ioemd eStleidre (.52.288) 3'X 100 (%)2'117890C'0000OTNN1EC2T(0O.0R38 ± 0.04)(B-)(A+S)ervo Track (1B) B((10B);.0B18 ± 0.04) (.0(1.510.59.42 7++ ± 00± //0 --.0..000.010524)) N (.62.438) T 200,000 204 2' 60 = 60 mm 2.5 60 2.5 T3 (13.582.88 ±± 0.0.13(95(1)3.208.27224.0.558 ± ±±± . 000.0.3.11399)) (14.37.270) 12 DOIFR LEECVTEIORN (.0(1.510.59.42 7++ ± 00± //0 --.0..000.010524)) N (.62.438) T15,00000,0,00000 510045 L T L eeervv012Amee8 ===rri n = LEPSMa enlCn8 endTa. tg2y TpaS tpel-mh treiLyn mm el eCvin eoarnl s(nR eecfetor rto Drawing) (.098) Output voltage across term.1-2 Input voltage across term. 1-3 12345((100000.1.9755.89.90155)) ((.7.02.949853)) 2( .DP20LI.7A0C9.S). 3' DIA. HOLES(.027.09 ++0.0.20/8-/0-0)2 PLCS. 12'' DIA(.. 202.7 0P9L)CS. R(Seeseis Statanncdea Crdo dRee sistance Table) 00 10 20 30 40 50 60 70 80 90 100 1.5 +0.2/-0 Resistance Taper (See Taper Charts) Term."1" Travel (%) Term."3" DIA. HOLES(.059 +.008/-0)7 PLCS. DIMENSIONS: MM Taper Series followed by Curve Number (INCHES) Specifications are subject to change without notice. The device characteristics and parameters in this data sheet can and do vary in different applications and actual device performance may vary over time. Users should verify actual device performance in their specific applications.
PSM Series Motorized Slide Potentiometer Tapers A Series Tapers B Series Tapers C Series Tapers 100 100 100 Output Voltage across Terminals 1-2X 100 (%)Input Voltage across Terminals 1-3 235147896000000000 (10A()2;A02A);((A13450AA));;AA(6(30255AA));;AA15 Output Voltage across Terminals 1-2X 100 (%)Input Voltage across Terminals 1-3 235147896000000000 (4((B3)5;B)BB;4)B;3B5 ((12BB));;BB21 Output Voltage across Terminals 1-2X 100 (%)Input Voltage across Terminals 1-3 235147896000000000 ((0(21505CCC()));3;;CCC02C51);C6((2105CC));;CC43 0 10 20 30 40 50 60 70 80 90 100 0 10 20 30 40 50 60 70 80 90 100 Terminal 1 Rotational Travel (%) Terminal 3 0 10 20 30 40 50 60 70 80 90 100 Terminal 1 Rotational Travel (%) Terminal 3 Terminal 1 Rotational Travel (%) Terminal 3 Asia-Pacific: Tel: +886-2 2562-4117 • Fax: +886-2 2562-4116 EMEA: Tel: +36 88 520 390 • Fax: +36 88 520 211 The Americas: Tel: +1-951 781-5500 • Fax: +1-951 781-5700 www.bourns.com REV. 01/18/16 Specifications are subject to change without notice. The device characteristics and parameters in this data sheet can and do vary in different applications and actual device performance may vary over time. Users should verify actual device performance in their specific applications.