Micro Relay K (THT THR) Small power relay Limiting continuous current at 8 C Low weight Low noise operation Wave (THT) and reflow (THR/pin-in-paste) solderable versions Typical applications Door lock, heated front/rear screen, lamps front/rear/fog light, interior lights, seat control, sun roof, window lifter, wiper control. 86C/R_fcwb Contact Data Typical applications Inductive load Wiper load Resistive/inductive load Lamp load V86-**- V86-**-8 V86-**- V86-**- Contact arrangement form C, CO form C, CO form, NO form, NO Rated voltage VDC VDC VDC VDC NO/NC NO/NC Rated current ) / / Limiting continuous current ) C / / 8 C / / C / / Limiting making current ) ) ) ) Limiting breaking current Contact material gsno Min. contact load > at VDC ) Initial voltage drop at, typ./max. /mv Operate/release time typ. /.ms ) Electrical enduranc cyclic temperature - C, + C, +8 C form C contact (CO) at VDC motor reverse blocked, wiper,,.77mh make/ break, >x ops. generator peak, on NC,mH >x 6 ops. form contact (NO) at VDC resistive lamp inrush, >x ops. steady state >x ops. Mechanical endurance >x 6 ops. Max. DC load breaking capacity Max. Switching Voltage in VDC W W W curve I W curve II ) Measured on 7x7x.mm epoxy PCB FR with cm (double layer μm) copper area. Connecting cable cross section 6 mm.boundary conditions: 8 C coil temperature; C solder joint. ) The values apply to a resistive or inductive load with suitable spark suppression and at maximum.vdc for VDC load voltages. For a load current duration of maximum s for a make/break ratio of :. ) Corresponds to the peak inrush current on initial actuation (cold filament). ) See chapter Diagnostics of Relays in our pplication Notes or consult the internet at http://relays.te.com/appnotes/ ) Measured at nominal voltage without coil suppression unit. low resistive suppression device in parallel to the relay coil increases the release time and reducesthe lifetime caused by increased erosion and/or higher risk of contact tack welding.. Switching Current in Load limit curve : arc extinguishes, during transit time (changeover contact). Load limit curve : safe shutdown, no stationary arc (make contact). Load limit curves measured with low inductive resistors verified for switching events.
Coil Data Rated coil voltage VDC Coil versions, DC coil Coil Rated Operate Release Coil Rated coil code voltage voltage voltage resistance power VDC VDC VDC Ω±% mw /8 6.9. 67 /8.7. 8 /8 6.. 9 ll figures are given for coil without pre-energization, at ambient temperature + C. Coil operating range Insulation Data Initial dielectric strength between open contacts between contact and coil Umax Uop (E=V) - - 6 8 mbient temperature in C Does not take into account the temperature rise due to the contact current E = pre-energization VC rms VC rms Other Data EU RoHS/ELV compliance compliant mbient temperature, DC coil - to + C Cold storage, IEC 668-- h; - C Dry heat, IEC 668-- h; + C Climatic cycling with condensation, EN ISO 6988 cycles, storage 8/6h Temperature cycling (shock), IEC 668--, Na cycles; -/+ C Temperature cycling, IEC 668--, Nb cycles; -/+ C Damp heat cyclic, IEC 668--, Db, variant 6 cycles C/ C/9%RH Damp heat constant, IEC 668-- method Ca 6 days C/9%RH Degree of protection THT: RT III (68), IP67 (IEC 69) THR: RT II (68), IP6 (IEC 69) Sealing test, IEC 668--7: THT Qc, method, min, 7 C Corrosive gas IEC 668-- days IEC 668-- days Vibration resistance (functional) IEC 668--6 (sine sweep) to Hz; 6g 6) Shock resistance (functional) IEC 668--7 (half sine) 6ms, up to g 6) Terminal type PCB:THT, THR Weight approx. g (.oz) Solderability (aging : h/ C) THT IEC 668-- Ta, method, hot dip s, C Solderability THR IEC668--8 hot dip s C Resistance to soldering heat THT IEC 668-- Tb, method, hot dip s, 6 C with thermal screen Resistance to soldering heat THR IEC 668--8 6 C; preheating min C Storage conditions according IEC 668-7) Packaging unit pcs. 6) Depending on mounting position: no change in the switching state >μs. 7) For general storage and processing recommendations please refer to our pplication Notes and especially to Storage in the Definitions or at http://relays.te.com/appnotes/
Terminal ssignment form, NO form C, CO Mounting Hole Layout 8. 86ets_ab 86etw_ab B C.8 7...7 +.. x +.. x..6. Dimensions Micro Relay K, THT version x x. ±..8 ±.... ±..6 ±.. ±. 7.6 ±. 9.9 ±. ±. *) B. C. TE86etw_an Remark: Positional tolerances according to DIN EN ISO 8.9 ±..8.9 ±. TE86etw_se *) dditional tin tops max. mm *) dditional tin tops max. mm
Micro Relay K, THR version Mounting Hole Layout *) 86R_DD_ 86R_VT View of Stand-Offs 86R_DD_ *) dditional tin tops max. mm 86R_VT
Product code structure Typical product code V86 -C - Type V86 Micro Relay K (THT THR) Terminal and enclosure C PCB version THT, sealed R PCB version THR, vented Design Single relay Coil Standard (THT) Sensitive (THT) 8 Standard (THR) 8 Sensitive (THR) Lamp load (THT) 8 Lamp load (THR) Contact type Single contact Contact material index gsno standard 8 gsno wiper load gsno lamp load Contact arrangement index NO CO Product code Version Design Coil Contact Cont. material rrangement Part number V86-C- PCB THT, Single Standard Single gsno (standard) form, NO -98- V86-C- cleanable form C, CO -98-6 V86-C- Lamp load gsno (lamp) form, NO -99- V86-C-8 Sensitive gsno (wiper) form C, CO -987- V86-R8- PCB THR, Standard gsno (standard) form, NO -99- V86-R8- vented form C, CO 6-9- V86-R8- Lamp load gsno (lamp) form, NO 9-96- V86-R8-8 Sensitive gsno (wiper) form C, CO 7-967-8 This list represents the most common types and does not show all variants covered by this datasheet. Other types on request.