1-1462037-4

Signal Relays 

**AXICOM** 

## **IM Relay** 

- n **Slim line 10x6mm, low profile 5.65mm and min. board-space 60mm[2]** 

- n **Switching current 2/5A, switching power 60W/62.5VA and switching voltage 220VDC/250VAC** 

- n **Low coil power consumption, 140mW standard, 100mW for high sensitive version, 50mW for ultra high sensitive version and 100mW for bistable version** 

- n **High dielectric and surge capability up to 2500Vrms between open contacts and 2500Vrms between coil and contacts** 

- n **High mechanical shock resistance up to 50g functional** 

## Typical applications 

Telecommunication, access and transmission equipment, optical network terminals, modems, office and business equipment, consumer electronics, measurement and test equipment, industrial control, medical equipment, HVAC. Buyer entirely assumes the risk and all liability relating to (a) assessing the suitability for Buyer’s intended use of the Products and of any system design or drawing and (b) determining the compliance of Buyer’s use of the Products with applicable laws, regulations, codes and standards. For more info on the exclusive and applicable warranty, please refer to TE standard warranty terms. 

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U 4)<br>**----- End of picture text -----**<br>


~~**Contact Data** (continued)~~ Electrical endurance at contact application 0 (≤30mV/≤10mA) min. 2.5x10[6] operations cable load open end min. 2.0x10[6] operations resistive, 125VDC / 0.24A - 30W min. 5x10[5] operations resistive, 220 VDC / 0.27A - 60W min. 1x10[5] operations resistive, 250VAC / 0.25A - 62.5VA min. 1x10[5] operations resistive, 30VDC / 1A - 30W min. 5x10[5] operations resistive, 30VDC / 2A - 60W min. 1x10[5] operations UL contact rating 30VDC, 2A, 60W, NO only 110VDC, 0.3A, 33W 220VDC, 0.27A, 60W 125VAC, 0.5A, 62.5W 250VAC, 0.25A, 62.5W 30VAC, 2A 62.5W, NO only (IMxxI, IMxxD) Mechanical endurance min. 10[[7]] operations 

## ~~**Approvals**~~ 

UL 508 File No. E 111441 

Technical data of approved types on request 

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||||||||||
|---|---|---|---|---|---|---|---|---|
|Contact Data|standard, C|D, I|P|UL contact rating|30VDC, 2A, 60W, NO only|
|standard and|high|high contact|110VDC, 0.3A, 33W|
|high dielectric|current|stability|220VDC, 0.27A, 60W|
|version|version|version|125VAC, 0.5A, 62.5W|
|Contact arrangement|2 form C, 2 CO|250VAC, 0.25A, 62.5W|
|Max. switching voltage|220VDC,|220VDC,|220VDC,|30VAC, 2A 62.5W, NO only (IMxxI, IMxxD)|
|250VAC|250VAC|250VAC|Mechanical endurance|min. 10|[[7]]|operations|
|Rated current|2A|5A|[1)]|2A|
|Limiting continuous current|2A|5A|[1)]|2A|Coil Data|
|1) for 5A applications please contact TE|Magnetic system|monostable, bistable|
|Switching power|60W, 62.5VA|Coil voltage range|1.5 to 24VDC|
|Contact material|PdRu|AgNi|PdRu|
|+Au|+Au|+Au|Coil versions, standard version, monostable, 1 coil|
|covered|covered|covered|Coil|Rated|Operate|Release|Coil|Rated coil|
|Contact style|twin cont. twin cont.|twin cont.|code|voltage|voltage|voltage|resistance|power|
|I: single contacts|VDC|VDC|VDC|Ω±10%|mW|
|Minimum switching voltage|100µV|00|1.5|1.13|0.15|16|140|
|Initial contact resistance|<50mΩ at 10mA/30mV|08|2.4|1.80|0.24|41|140|
|I: < 100mΩ|01|3|2.25|0.30|64|140|
|Thermoelectric potential|<10µV|02|4.5|3.38|0.45|145|140|
|Operate time|typ. 1ms, max. 3ms|03|5|3.75|0.50|178|140|
|Release time|04|6|4.50|0.60|257|140|
|without diode in parallel|typ. 1ms, max. 3ms|05|9|6.75|0.90|579|140|
|with diode in parallel|typ. 3ms, max. 5ms|06|12|9.00|1.20|1029|140|
|Bounce time max.|typ. 1ms, max. 5ms|07|24|18.00|2.40|2880|200|

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All figures are given for coil without pre-energization, at ambient temperature +23°C 

## **Coil operating range, standard version** 

**==> picture [478 x 128] intentionally omitted <==**

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Max. DC load breaking capacity 3.4<br>3.2 140mW coil<br>3 200mW coil<br>2.8 Umax. at 2x1A<br>moet PT 2.6 = _]<br>200 an 2.4 Umax. at 0A<br>2.2<br>100Cae[Ny [|e] es a a N resistive load || 1.82 = >t ~ ~S 2 Umax. at 0A<br>a A 1.6 —<br>sol | | TTIN | [Ty] 1.4 Umax. at 2x2A Cc<br>aoEN 1.21 Unom. nominal coil voltage »<br>soe TIE [SINATTIT] 0.8<br>20 | recommended TAIT | 0.6<br>0.4 Urel. min.<br>0.2<br>10 application range WMI H 0 ST<br>0,1 02 05 1 2 5 10 20 -50 -40 -30 -20 -10 0 10 20 30 40 50 60 70 80 90 100 110 120<br>DC current [A] Ambient Temperature [°C]<br>]nom<br>Coil Voltage [U/U<br> DC Voltage [Vdc]<br>**----- End of picture text -----**<br>


Datasheets and product specification according to IEC 61810-1 and to be used only together with the ‘Definitions’ section. 

1 

Datasheets and product data is subject to the Datasheets, product data, ‘Definitions’ secterms of the disclaimer and all chapters of tion, application notes and all specifications the ‘Definitions’ section, available at are subject to change. http://relays.te.com/definitions 

10-2020, Rev. 1020 www.te.com © 2015 Tyco Electronics Corporation, a TE Connectivity Ltd. company 

Signal Relays 

**AXICOM** 

## **IM Relay** (Continued) 

|~~**Coil Data**(continued)~~|~~**Coil Data**(continued)~~|||||||~~**Insulation Data**~~|~~**standard**~~|~~**C**2)~~|~~**D,P, I**~~|
|---|---|---|---|---|---|---|---|---|---|---|---|
|**Coil versions, sensitive version, monostable, 1 coil**|||||**Coil versions, sensitive version, monostable, 1 coil**||||standard,|high|high current,|
|Coil|Rated|Operate|Release||Coil|Rated coil|||sensitive,|dielectric|dielectric<br>high contact|
|code|voltage|voltage|voltage||resistance|power|||ultra high|version|stability|
||VDC|VDC|VDC||Ω±10%|mW|||sensitive||version|
|11|3|2.40|0.30||91|100|||version|||
|12|4.5|3.60|0.45||194|100||Initial dielectric strength||||
|13|5|4.00|0.50||234|100||between open contacts|750Vrms|1500Vrms|750Vrms|
|16|12|9.60|1.20||1315|110||between contact and coil|1800Vrms|1800Vrms|1500Vrms|
|17|24|19.20|2.40||4120|140||between adjacent contacts|1000Vrms|1800Vrms|750Vrms|
|**Coil versions, ultra high sensitive version, monostable, 1 coil**||||||||Initial surge withstand voltage||||
|Coil|Rated|~~O~~perate|Release||Coil|Rated coil||between open contacts|1500V|2500V|1000V|
|code|voltage|voltage|voltage||resistance|power||between contact and coil|2500V|2500V|2000V|
||VDC|VDC|VDC||Ω±10%|mW||between adjacent contacts|1500V|2500V|1000V|
|21|3|3.00|0.30||180|50||Initial insulation resistance||||
|22|4.5|4.50|0.45||405|50||between insulated elements|>109Ω|>109Ω|>109Ω|
|23|5|5.00|0.50||500|50||Capacitance||||
|26|12|12.00|1.20||2880|50||between open contacts||max. 1pF|max. 1pF|
|All figures are given for coil without pre-energization, at ambient temperature +23°C||||||||between contact and coil||max. 2pF|max. 2pF|
|||||||||between adjacent contacts||max. 2p||
|**Coil operating range, sensitive and ultra high sensitive coil**||||||||2) th~~is relay contains SF6 (Sulfur hexaf~~l~~uoride, CAS number: 2551-62-4) for dielectric~~|||~~uoride, CAS number: 2551-62-4) for dielectric~~|
|||||||||stre~~ngth enhancement, SF6 is hermetically sealed in relay without leaks to air during~~normal||||
||3.4<br>3.2<br>Eee<br>ASSESSES<br>on<br>=aS<br>B~~f~~<br>at08<br>32<br>in<br>a5||—_—<br>Ssd0mW coil<br>so=<br>i<br>ecoCscon<br>aSoN“<br>~~f~~<br>~~R~~N<br>NX<br>\|||||application as recommended per the applicableproduct specification. It is clarified that the<br>usage of SF6 in mini signal relay is not prohibitedby related regulations. Please contact<br>TE local sales or field engineer for further information and detailed material declaration. To<br>ensure the dielectric performance after soldering processes / assembly customer is advised<br>to perform a dielectric test.||||



## **Coil operating range, sensitive and ultra high sensitive coil** 

~~**RF Data** a~~ Isolation at 100MHz/900MHz 37.0dB/18.8dB Insertion loss at 100MHz/900MHz 0.03dB/0.33d ~~B~~ Voltage standing wave ratio (VSWR) at 100MHz/900MHz 1.06/1.49 ~~a~~ ~~**Other Data** ee~~ Material compliance: EU RoHS/ELV, China RoHS, REACH, Halogen content ~~refer to the Product Compliance Support Cent~~ er at www.te.com/customersupport/rohssupportcenter Ambient temperature -40°C to +85°C Thermal resistance <150K/W Category of environmental protection I ~~EC 61810 RT V - hermetically sealed~~ Vibration resistance (functional) 20g, 10 to 500Hz Shock resistance (functional), half sinus 11ms 50g Shock resist ~~ance (destru~~ ctive), half sinus 0.5ms ~~500g~~ Mounting po ~~sition any~~ Weight ~~max. 0.75g~~ Resistance to soldering heat SMT IEC ~~60068-2-58~~ Moisture ~~sensit~~ ive level, JEDEC J-STD-020E ~~M~~ SL3 related only ~~t~~ o S ~~M~~ T relays packed in orginal dry-p ~~a~~ cks. Calculated shelf life in sealed bag: 36 months at <40º C and <90% relative humidity (RH). Floor life (out of the bag) at assembly site is 168 Hours at ≤ 30º/60% RH. Ultrasonic cleaning not recommended Pa ~~ckaging/unit~~ THT version tube/50pcs., box/1000 pcs. SMT version reel/1000 pcs., box/1000 or 5000 pcs. ~~Monostable version~~ Bi ~~stable version, 1 coil~~ rest condition reset condition ~~1~~ [e765 a ~~c~~ lss [e765 L | O 1) O Oe A 1) iL + an wn 1234 r ~~T~~ 21 234 Contacts are shown in reset condition. Contact position might change during transportation and must be reset before use. 

||**Coil versions, standard, bistable 1 coil**|**Coil versions, standard, bistable 1 coil**|**Coil versions, standard, bistable 1 coil**|**Coil versions, standard, bistable 1 coil**|**Coil versions, standard, bistable 1 coil**|**Coil versions, standard, bistable 1 coil**||
|---|---|---|---|---|---|---|---|
||**Coil versions, standard, bistable 1 coil**|**Coil versions, standard, bistable 1 coil**|**Coil versions, standard, bistable 1 coil**|**Coil versions, standard, bistable 1 coil**|**Coil versions, standard, bistable 1 coil**|**Coil versions, standard, bistable 1 coil**||
|Coil<br>Rated<br>code<br>voltage<br>VDC|Rated|Rated||Set|Set|Reset|Coil|
||voltage|voltage||voltage|voltage|voltage|resistance|
||voltage<br>VDC|voltage<br>VDC||voltage<br>VDC|voltage<br>VDC|voltage<br>VDC|resistance<br>Ω±10%|
||VDC|VDC||VDC|VDC|VDC|Ω±10%|
|40<br>1.5<br>48<br>2.4<br>41<br>3<br>42<br>4.5<br>43<br>5<br>44<br>6<br>45<br>9|1.5|||1.13|1.13|-1.13|23|
||1.5<br>2.4|||1.13<br>1.80|1.13<br>1.80|-1.13<br>-1.80|23<br>58|
||2.4|||1.80|1.80|-1.80|58|
||3|||2.25|2.25|-2.25|90|
||3<br>4.5|||2.25<br>3.38|2.25<br>3.38|-2.25<br>-3.38|90<br>203|
||4.5|||3.38|3.38|-3.38|203|
||5<br>6<br>9|||3.75<br>4.50<br>6.75|3.75<br>4.50<br>6.75|-3.75<br>-4.50<br>-6.75|250<br>360<br>810|



All figures are given for coil without pre-energization, at ambient temperature +23°C 

## **Coil operating range, bistable 1 coil** 

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3.4<br>3.2<br>3<br>2.8 Uduty atmax. - 5%coil Umax.-5%coil<br>2.6 Umax. - 100% coil duty at : 2x2A (100mW) duty at 0A(100mW)<br>2.42.2 => 0A (100mW) Umax | .-5%coil<br>2 duty at 0A (200mW)<br>1.81.6 Umax. - 100% coil duty at0A (200mW) ~ rS~ ~ Umax. -5% coil  |<br>1.4 duty at 2x1A (100mW)<br>1.2<br>1 Unom. nominal coil voltage<br>0.8<br>0.6 Uset min.<br>0.4 100 mW Latching<br>0.2 200 mW Latching<br>0 [= =<br>-50 -40 -30 -20 -10 0 10 20 30 40 50 60 70 80 90 100 110 120 130 140<br>Ambient Temperature [°C]<br>]nom<br>Coil Voltage [U/U<br>**----- End of picture text -----**<br>


Datasheets and product specification according to IEC 61810-1 and to be used only together with the ‘Definitions’ section. 

2 

Datasheets and product data is subject to the Datasheets, product data, ‘Definitions’ secterms of the disclaimer and all chapters of tion, application notes and all specifications the ‘Definitions’ section, available at are subject to change. http://relays.te.com/definitions 

10-2020, Rev. 1020 www.te.com © 2015 Tyco Electronics Corporation, a TE Connectivity Ltd. company 

Signal Relays 

**AXICOM** 

## **IM Relay** (Continued) 

## **Dimensions (Unit: mm)** 

**==> picture [523 x 135] intentionally omitted <==**

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THT Standard version THT Short version THT Narrow version SMT Gull wings version SMT J-legs version<br>10.008 60.08, 1050.08 6+ 0.08 |, 10-008 | 5.7+03,, 10 = 0.08 6+ 0.08 _, 10-008 |, 6+ 0.08 ,,<br>r ) ——s<br>238 q3]38 3 38< 3° :3<br>RS : a { 1 4S IE<br>a =—(O4 : i w 04 1, 5.08 28<br>3 oa 3 32 |22l22| _ 748, 32122122) |" 508|<br>Coplanarity ≤0.1 Coplanarity ≤0.1<br>8242222, | [508] | Paenetiea| 8a| ns2i22i22) L324, |<br>PCB layout<br>Top view on component side of PCB<br>THT Standard and Short version THT Narrow version SMT Gull wings version SMT J-legs version<br>**----- End of picture text -----**<br>


Customer needs to apply enough solder paste volume / thickness / solder material content to ensure a stable solder joint 

**Processing** Recommended soldering conditions 

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**----- Start of picture text -----**<br>
Recommended reflow soldering profile IEC 61760-1<br>**----- End of picture text -----**<br>


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**----- Start of picture text -----**<br>
Recommended vapor phase soldering profile<br>Recommended soldering conditions<br>300 Vapour phase soldering 240°C oe 20 to 40s plesseseessenyi full line: typicaldotted line: process limits<br>a ee<br>200 Se<br>180°C<br>Ss<br>150 130°C forced cooling ,“<br>external preheating ‘<br>100 100°C .<br>Vapour phase soldering<br>temperature/time profile<br>(lead and housing peak temp.)<br>0<br>te) 50 100 150 200 Time [s] 250<br>Temperature [°C]<br>**----- End of picture text -----**<br>


3 

Datasheets and product specification according to IEC 61810-1 and to be used only together with the ‘Definitions’ section. 

Datasheets and product data is subject to the Datasheets, product data, ‘Definitions’ secterms of the disclaimer and all chapters of tion, application notes and all specifications the ‘Definitions’ section, available at are subject to change. http://relays.te.com/definitions 

10-2020, Rev. 1020 www.te.com © 2015 Tyco Electronics Corporation, a TE Connectivity Ltd. company 

Signal Relays 

~~**AXICOM**~~ 

## **IM Relay** (Continued) 

## **Packing** 

Tube for THT version 50 relays per tube, 1000 relays per box 

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Tape and reel for SMT version<br>1000 relays per reel, 1000 or 5000 relays per box<br>_ 10x4=(40+0. 2 )<br>qi<br>2 275 +9, B =<br>_ 6 666 @ /6 © O]o<br>35/25 fota @hgt éogeeh @ Th<br>Pai 4 ! !<br>|<br>1240.1 —=3<br>Reel dimensions<br>**----- End of picture text -----**<br>


|**Product code structure**|**Product code structure**||Typical product code|**IM**||**03**||**G**|**R**|
|---|---|---|---|---|---|---|---|---|---|
|**Type**||||||||||
|**IM**|Signal Relays IM Series|||||||||
|**Contact arrangement**||||||||||
|**Blank**2 form C, 2 CO||||||||||
|**Coil**||||||||||
|Coil code: please refer to coil versions table||||||||||
|**Performance type**||||||||||
|**Blank**Standar~~d vers~~ion||**R**Customer specific|Customer specific|||||||
|||**I**|High current version single contact|||||||
|||**C**|**C**<br>High dielectric version|||||||
|||**D**|**D**<br>High current version|||||||
|||**P**|**P**<br>High contact stability version|||||||
|**Terminals**||||||||||
|**T**|THT - standard|**J**|**J**<br>S~~M~~T - J-leg|||||||
|**N**|THT - narrow version|~~**G**~~|~~**G**~~<br>SMT - gull wing|||||||
|**K**THT - short version|THT - short version|||||||||
|**Packing**||||||||||
|**S**|Tube|**R**|**R**<br>Reel|||||||



4 

Datasheets and product specification according to IEC 61810-1 and to be used only together with the ‘Definitions’ section. 

Datasheets, product data, ‘Definitions’ section, application notes and all specifications are subject to change. 

10-2020, Rev. 1020 www.te.com © 2015 Tyco Electronics Corporation, a TE Connectivity Ltd. company 

Datasheets and product data is subject to the terms of the disclaimer and all chapters of the ‘Definitions’ section, available at http://relays.te.com/definitions 

**Signal Relays** 

**AXICOM** 

|**Product code**|**Arrangement**|**Perf. type**|**Coil**<br>~~—~~|**Coil type**|**Coil**<br>~~|~~|**Terminals**<br>~~|~~|**Part number**|
|---|---|---|---|---|---|---|---|
|IM00GR<br>IM00JR<br>IM00NS<br>IM01GR<br>IM01JR<br>IM01NS<br>IM01TS<br>IM02GR<br>IM02JR<br>IM02NS<br>IM03GR<br>IM03JR<br>IM03NS<br>IM03TS<br>IM04GR<br>IM04JR<br>IM04NS<br>IM05GR<br>IM05JR<br>IM05NS<br>IM05TS<br>IM06GR<br>IM06JR<br>IM06NS<br>IM07GR<br>IM07JR<br>IM07NS<br>IM08GR<br>IM11GR<br>IM12GR<br>IM13GR<br>IM16GR<br>3)IM17GR<br>3)IM17TS<br>IM21GR<br>IM21TS<br>IM22GR<br>IM22TS<br>IM23GR<br>IM23TS<br>IM23KS<br>IM26GR<br>IM26TS<br>4)IM40GR<br>4)IM40JR<br>4)IM40NS<br>4)IM40TS<br>4)IM41GR<br>4)IM41JR<br>4)IM41NS<br>4)IM41TS<br>4)IM42GR<br>4)IM42JR<br>4)IM42NS<br>4)IM42TS<br>4)IM43GR<br>4)IM43JR<br>4)IM43NS<br>4)IM43TS<br>4)IM44GR<br>4)IM44JR<br>4)IM44NS<br>4)IM44TS<br>4)IM45GR<br>4)IM45JR<br>4)IM45NS<br>4)IM46GR<br>4)IM46JR<br>4)IM46NS<br>4)IM46TS<br>IM47GR<br>IM47JR<br>IM47NS<br>IM47TS|**Arrangement**<br>2 form C,<br>2 CO<br>contacts|**Perf. type**<br>Standard<br>~~—~~<br>~~—~~<br>~~—~~<br>~~|~~<br>~~|~~<br>~~|~~<br>~~Po~~<br>~~—~~<br>~~—~~<br>~~—~~|1.5VDC<br>~~—~~<br>|**Coil type**<br>Monostable<br> ~~;~~|Standard<br>~~|fo~~<br>~~po~~<br>~~[|po~~<br>~~|~~<br>~~|fo~~<br>~~po~~<br>~~[|po~~<br>~~|~~<br>~~fo~~<br>~~**po**~~<br>~~a~~<br>~~|~~<br>~~fo~~<br>~~po~~<br>~~[po~~<br>~~f~~<br>~~po~~<br>~~;~~|SMT gull wing<br>~~|~~|3-1462037-7<br>3-1462037-9<br>1-1462038-0<br>1462037-1<br>4-1462037-0<br>1-1462038-1<br>1462037-4<br>1462037-9<br>1-1462037-1<br>1-1462038-2<br>1-1462037-4<br>1-1462037-6<br>1-1462038-3<br>1-1462037-8<br>4-1462037-2<br>4-1462037-4<br>1-1462038-4<br>3-1462037-4<br>4-1462037-5<br>1-1462038-5<br>2-1462037-2<br>2-1462037-3<br>4-1462037-6<br>1-1462038-6<br>4-1462037-7<br>4-1462037-8<br>1-1462038-7<br>6-1462039-3<br>9-1462038-5<br>1462039-3<br>1462039-4<br>1462039-5<br>1462039-6<br>4-1462039-6<br>2-1462039-6<br>1-1462039-5<br>2-1462039-7<br>2-1462039-8<br>2-1462039-9<br>3-1462039-0<br>6-1462039-7<br>3-1462039-1<br>3-1462039-2<br>5-1462037-1<br>5-1462037-2<br>1-1462038-8<br>5-1462037-0<br>5-1462037-4<br>5-1462037-5<br>1-1462038-9<br>5-1462037-3<br>3-1462037-1<br>5-1462037-7<br>2-1462038-0<br>5-1462037-6<br>5-1462037-9<br>6-1462037-0<br>2-1462038-1<br>5-1462037-8<br>6-1462037-2<br>6-1462037-3<br>2-1462038-2<br>6-1462037-1<br>6-1462037-4<br>6-1462037-5<br>2-1462038-3<br>6-1462037-7<br>6-1462037-8<br>2-1462038-4<br>6-1462037-6<br>7-1462037-0<br>7-1462037-1<br>2-1462038-5<br>6-1462037-9|
|||||||SMT J-leg<br>~~|fo~~||
|||||||THT narrow<br>~~|fo~~<br>~~po~~<br>~~[|~~||
||||3VDC<br>~~—~~<br>|||SMT gull wing<br>~~|~~<br>~~po~~<br>~~[|~~||
|||||||SMT J-leg<br>~~[|po~~||
|||||||THT narrow<br>~~po~~<br>~~|~~<br>~~|~~||
|||||||THT standard<br>~~|~~<br>~~|~~||
||||4.5VDC<br>~~—~~<br>|||SMT gull wing<br>~~|fo~~<br>~~po~~||
|||||||SMT J-leg<br>~~fo~~<br>~~po~~<br>~~[|~~||
|||||||THT narrow<br>~~po~~<br>~~[|~~||
||||5VDC<br>~~—~~<br>~~—~~<br>|||SMT gull wing<br>~~po~~<br>~~[|po~~<br>~~|~~||
|||||||SMT J-leg<br>~~po~~<br>~~|~~||
|||||||THT narrow<br>~~|~~||
|||||||THT standard<br>~~|~~<br>~~fo~~||
||||6VDC<br>~~—~~<br>~~—~~<br>|||SMT gull wing<br>~~|~~<br>~~fo~~<br>~~**po**~~||
|||||||SMT J-leg<br>~~**po**~~<br>~~a~~||
|||||||THT narrow<br>~~**po**~~<br>~~a~~||
||||9VDC<br>~~—~~<br>~~—~~<br>~~—~~<br>|||SMT gull wing<br>~~**po**~~<br>~~|~~||
|||||||SMT J-leg<br>~~|~~||
|||||||THT narrow<br>~~|~~<br>~~fo~~||
|||||||THT standard<br>~~|~~<br>~~fo~~<br>~~po~~<br>~~[~~~~**|**~~||
||||12VDC<br>~~—~~<br>~~—~~<br>|||SMT gull wing<br>~~|~~<br>~~po~~<br>~~[~~~~**|**~~||
|||||||SMT J-leg<br>~~[~~~~**|**po~~||
|||||||THT narrow<br>~~[~~~~**|**po~~||
||||24VDC<br>~~—~~<br>~~—~~<br>~~|~~|||SMT gull wing<br>~~[~~~~**|**~~<br>~~fo~~||
|||||||SMT J-leg<br>~~fo~~||
|||||||THT narrow<br>~~fo~~<br>~~po~~||
||||2.4VDC<br>~~—~~<br>~~|~~|||SMT gull wing<br>~~fo~~<br>~~po~~<br>~~fo~~||
||||3VDC<br>~~| ~~<br>~~|~~||High sens.<br>~~po~~<br>~~;~~<br>~~fo~~<br>~~fo~~|||
||||4.5VDC<br>~~|~~<br>~~|~~|||||
||||5VDC<br>~~|~~<br>~~|~~|||||
||||12VDC<br>~~|Le~~|||||
||||24VDC<br>~~|~~<br>~~Po~~|||||
|||||||THT standard<br>~~fo~~<br>~~fo~~||
||||3VDC<br>~~|~~<br>~~Po~~||Ultra<br>high<br>sensitive<br>~~fo~~<br>~~fo~~<br>~~|~~<br>~~—~~<br>~~fo~~<br>~~**po**~~<br>~~a~~<br>~~|~~<br>~~|~~|SMT gull wing<br>~~fo~~<br>~~fo~~||
|||||||THT standard<br>~~fo~~<br>~~|~~||
||||4.5VDC<br>~~Po~~<br>~~|~~|||SMT gull wing<br>~~fo~~<br>~~|~~<br>~~—~~||
|||||||THT standard<br>~~—~~<br>~~fo~~||
||||5VDC<br>~~—~~|||SMT gull wing<br>~~**po**~~||
|||||||THT standard<br>~~**po**~~<br>~~a~~||
|||||||THT short<br>~~**po**~~<br>~~a~~||
||||12VDC<br>~~a~~|||SMT gull wing<br>~~|~~<br>~~|~~||
|||||||THT standard<br>~~|~~<br>~~|~~||
||||1.5VDC<br>~~a~~<br>~~—~~|Bistable|Standard<br>~~|~~<br>~~|[~~<br>~~**po**~~<br>~~|~~<br>~~|fo~~<br>~~po~~<br>~~[|po~~<br>~~|~~<br>~~|fo~~<br>~~**po**~~<br>~~|~~<br>~~fo~~<br>~~po~~<br>~~[||[|||[oT~~<br>~~fo~~<br>~~[|[oo~~|SMT gull wing<br>~~|~~<br>~~|[~~<br>~~**po**~~||
|||||||SMT J-leg<br>~~**po**~~||
|||||||THT narrow<br>~~**po**~~||
|||||||THT standard<br>~~**po**~~||
||||3VDC<br>~~—~~|||SMT gull wing<br>~~|~~<br>~~|~~||
|||||||SMT J-leg<br>~~|~~<br>~~|~~||
|||||||THT narrow<br>~~|~~<br>~~|fo~~||
|||||||THT standard<br>~~|~~<br>~~po~~<br>~~[|~~||
||||4.5VDC<br>~~—~~|||SMT gull wing<br>~~|~~<br>~~po~~<br>~~[|~~||
|||||||SMT J-leg<br>~~[|po~~||
|||||||THT narrow<br>~~|~~<br>~~|~~||
|||||||THT standard<br>~~|~~<br>~~|~~||
||||5VDC<br>~~—~~|||SMT gull wing<br>~~|fo~~<br>~~**po**~~||
|||||||SMT J-leg<br>~~**po**~~||
|||||||THT narrow<br>~~**po**~~||
|||||||THT standard<br>~~**po**~~||
||||6VDC<br>~~—~~|||SMT gull wing<br>~~|~~||
|||||||SMT J-leg<br>~~|~~||
|||||||THT narrow<br>~~|~~<br>~~fo~~||
|||||||THT standard<br>~~|~~<br>~~po~~<br>~~[|~~||
||||9VDC|||SMT gull wing<br>~~[||~~||
|||||||SMT J-leg<br>~~[||[|~~||
|||||||THT narrow<br>~~|[|~~||
||||12VDC|||SMT gull wing<br>~~[||~~||
|||||||SMT J-leg<br>~~[|||~~||
|||||||THT narrow<br>~~||~~||
|||||||THT standard<br>~~|[oT~~||
||||24VDC|||SMT gull wing<br>~~[oT~~<br>~~fo~~<br>~~[|~~||
|||||||SMT J-leg<br>~~[|~~||
|||||||THT narrow<br>~~[|~~||
|||||||THT standard<br>~~[|[oo~~||



10-2020, Rev. 1020 Datasheets and product specification Datasheets and product data is subject to the Datasheets, product data, ‘Definitions’ secwww.te.com according to IEC 61810-1 and to be used terms of the disclaimer and all chapters of tion, application notes and all specifications © 2015 Tyco Electronics Corporation, only together with the ‘Definitions’ section. the ‘Definitions’ section, available at are subject to change. a TE Connectivity Ltd. company http://relays.te.com/definitions 

5 

Signal Relays 

**AXICOM** 

## **IM Relay** (Continued) 

|**Product code**|**Arrangement**|**Perf. type**|**Coil**|**Coil type**|**Coil**|**Terminals**|**Part number**|
|---|---|---|---|---|---|---|---|
|4)IM48GR|**Arrangement**<br>~~P~~|**Perf. type**<br>~~P~~|2.4VDC<br>~~P~~|**Coil type**<br>~~Po~~|~~o~~<br>~~|~~|SMT gull wing<br>~~o~~<br>~~|~~|1462039-8|
|IM01CGR<br>IM01CTS<br>IM02CGR<br>IM03CGR<br>IM03CJR<br>IM03CTS<br>IM05CGR<br>IM06CGR<br>IM06CJR<br>IM06CTS<br>IM07CGR<br>IM07CTS<br>IM17CGR<br>4)IM41CGR<br>4)IM42CGR<br>4)IM43CGR<br>4)IM48CGR<br>IM02DGR<br>IM02IJR<br>IM02IGR<br>IM03DGR<br>IM03DJR<br>IM05DGR<br>IM06DGR<br>IM06DJR<br>IM06DTS<br>IM07DGR<br>IM07DJR<br>IM07DTS<br>IM22DTS<br>IM41DGR<br>IM42DGR<br>IM42DNS<br>IM46DNS<br>IM47DJR<br>IM48DGR<br>IM49DGR<br>IM40IGR<br>IM48IGR<br>IM49IGR<br>IM02PGR<br>IM02PNS<br>IM03PGR<br>IM03PJR<br>IM03PNS<br>IM06PGR<br>IM06PNS<br>IM42PGR<br>IM42PNS<br>IM43PGR<br>IM46PNS|2 form C<br>2 CO<br>contacts<br>~~P~~|High<br>dielectric<br>~~P~~<br>~~——~~<br>~~|~~<br>~~|~~|3VDC<br>~~P~~|Monostable<br>~~Po~~<br>[||Standard<br>~~o~~<br>~~||Cd~~<br>~~a~~<br>~~[|~~<br>~~|~~<br>~~a~~<br>~~Po~~<br>~~|sd~~<br>~~[|~~<br>~~|~~<br>[||SMT gull wing<br>~~o~~<br>~~||~~|1462038-4<br>9-1462038-6<br>1462038-1<br>1462038-2<br>4-1462039-8<br>4-1462039-7<br>1462038-3<br>9-1462037-9<br>3-1462039-4<br>4-1462037-9<br>1462039-2<br>1462039-1<br>1462039-7<br>4-1462039-2<br>4-1462039-1<br>9-1462038-7<br>9-1462039-0<br>9-1462038-8<br>1462047-8<br>1462047-9<br>9-1462038-9<br>3-1462039-3<br>1-1462039-7<br>1-1462039-8<br>7-1462039-0<br>3-1462039-8<br>3-1462039-7<br>7-1462039-4<br>7-1462039-2<br>7-1462039-6<br>6-1462039-8<br>1-1462039-9<br>1-1462039-6<br>1-1462039-2<br>7-1462039-5<br>1462039-9<br>2-1462039-2<br>1462047-7<br>1462047-1<br>1462047-4<br>5-1462039-4<br>5-1462039-8<br>5-1462039-5<br>6-1462039-6<br>5-1462039-9<br>5-1462039-6<br>6-1462039-0<br>5-1462039-7<br>7-1462039-8<br>7-1462039-3<br>6-1462039-1<br>~~a~~|
|||||||THT standard<br>~~||Cd~~||
||||4.5VDC<br>~~—~~|||SMT gull wing<br>~~|Cd~~<br>~~a~~||
||||5VDC<br>~~—~~<br>~~——~~|||||
|||||||SMT J-leg<br>~~a~~<br>~~[|~~<br>~~|~~||
|||||||THT standard<br>~~[|~~<br>~~|~~||
||||9VDC<br>~~——~~|||SMT gull wing<br>~~|~~<br>~~a~~||
||||12VDC<br>~~——~~|||||
|||||||SMT J-leg<br>~~|~~<br>~~a~~<br>~~Po~~<br>~~|~~||
|||||||THT standard<br>~~Po~~<br>~~|sd~~||
||||24VDC<br>~~|~~|||SMT gull wing<br>~~|sd~~<br>~~[|~~<br>~~|~~||
|||||||THT standard<br>~~[|~~<br>~~|~~||
||||||High sens.<br>~~|~~<br>[||SMT gull wing<br>~~|~~<br>~~|~~<br>~~J~~||
||||3VDC<br>~~|~~|Bistable<br>[||Standard<br>~~|~~<br>[||||
||||4.5VDC<br>~~|Le~~|||||
||||5VDC<br>~~Le~~<br>~~|~~<br>~~|~~|||||
||||2.4VDC<br>~~|~~<br>~~|~~|||||
|||**High**<br>current<br>~~|~~<br>~~|~~<br>~~|~~<br>~~|~~<br>~~||~~<br>~~a_—~~|4.5VDC<br>~~|~~|Monostable<br>~~=~~<br>~~|~~<br>~~a~~|Standard<br>~~||Cd~~<br>~~[|J~~<br>~~==~~<br>~~||Cd~~<br>~~[|J~~<br>~~|~~|||
|||||||SMT J-leg<br>~~||~~<br>~~J~~||
|||||||leg<br>SMT gull wing<br>~~||Cd~~<br>~~[|J~~||
||||5VDC|||SMT gull wing<br>~~|Cd~~<br>~~[|J~~||
|||||||SMT J-leg<br>~~[|J~~||
||||9VDC|||SMT gull wing<br>~~J~~<br>~~|~~||
||||12VDC|||||
|||||||SMT J-leg<br>~~J~~<br>~~||~~||
|||||||THT standard<br>~~J~~<br>~~||Cd~~<br>~~[|~~||
||||24VDC<br>~~|~~|||SMT gull wing<br>~~J~~<br>~~|Cd~~<br>~~[|~~||
|||||||SMT J-leg<br>~~J~~<br>~~[|J~~||
|||||||THT standard<br>~~J~~<br>~~J~~<br>~~a~~||
||||4.5VDC<br>~~|~~||U.h.sens.<br>~~J~~<br>~~==~~<br>~~|~~<br>~~a~~|||
||||3VDC<br>~~|~~<br>|Bistable<br>~~=~~<br>~~|~~<br>~~a~~<br>~~|~~|Standard<br>~~J~~<br>~~==~~<br>~~|~~<br>~~a~~<br>~~| ——~~<br>~~a~~<br>~~[|~~<br>~~[|~~|SMT gull wing<br>~~J~~<br>~~a~~<br>~~——~~||
||||4.5VDC<br>~~|~~<br>~~—~~|||||
|||||||THT narrow<br>~~——~~<br>~~a~~<br>~~[|~~||
||||12VDC<br>~~|~~<br>~~—~~<br>~~|~~|||||
||||24VDC<br>~~—~~<br>~~|~~<br>~~|~~|||SMT J-leg<br>~~a~~<br>~~[|~~||
||||2.4VDC<br>~~|~~<br>~~|~~|||SMT gull wing<br>~~[|~~<br>~~[|~~||
||||2VDC<br>~~||~~<br>~~|~~|||||
||||1.5VDC<br>~~|~~<br>~~||~~|||||
||||2.4VDC<br>~~||~~|||||
||||2VDC<br>~~||~~<br>~~a_—~~|||||
|||High<br>contact<br>stability<br>~~a_—~~|4.5VDC<br>~~a_—~~|Monostable|Standard<br>~~[|~~<br>~~||Cd~~<br>~~[|J~~<br>~~fp~~|||
|||||||THT narrow<br>~~[|~~<br>~~|~~||
||||5VDC<br>~~a_—~~|||SMT gull wing<br>~~[|~~<br>~~||~~||
|||||||SMT J-leg<br>~~||Cd~~<br>~~[|~~||
|||||||THT narrow<br>~~|Cd~~<br>~~[|~~||
||||12VDC|||SMT gull wing<br>~~[|J~~<br>~~fp~~||
|||||||THT narrow<br>~~fp~~||
||||4.5VDC|Bistable|Standard<br>~~fp|~~<br>~~||Cd~~|SMT gull wing<br>~~fp|~~<br>~~|~~||
|||||||THT narrow<br>~~|~~<br>~~||~~||
|||||||SMT gull wing<br>~~||Cd~~||
||||12VDC|||THT narrow<br>~~|Cd~~||



3) Restricted product, for more information contact TE 

4) Type VDE certified, for more information contact TE 

Note. This list represents the most common types and does not show all variants covered by this datasheet. Other types on request. 

6 

Datasheets and product specification according to IEC 61810-1 and to be used only together with the ‘Definitions’ section. 

Datasheets and product data is subject to the Datasheets, product data, ‘Definitions’ secterms of the disclaimer and all chapters of tion, application notes and all specifications the ‘Definitions’ section, available at are subject to change. http://relays.te.com/definitions 

10-2020, Rev. 1020 www.te.com © 2015 Tyco Electronics Corporation, a TE Connectivity Ltd. company