VDE a/c A/A small power relays RELAYS Compliance with RoHS Directive FEATURES High electrical noise immunity High switching capacity in a compact package High sensitivity: mw (a), mw (c) High surge voltage:, V between contacts and coil UL, CSA, VDE, SEMKO approved and TÜV available Class B coil insulation type also available. TYPICAL APPLICATIONS Air conditioners Refrigerators Microwave ovens Heaters ORDERING INFORMATION Contact arrangement a: Form A : Form C Contact capacity Nil: Standard (A) P: High capacity (A) Coil insulation class Nil: Class E coil insulation B: Class B coil insulation (UL) Nominal coil voltage (DC) V, V, 9V, V, V, V, V* Contact material F: AgSnO type Certified by UL, CSA, VDE and SEMKO Note: *Available only for Form C type F TYPES ) Nominal coil voltage Standard packing: Carton pcs., Case pcs. Form A Form C Form A Form C Part No. Part No. Part No. Part No. V DC a-v-f -V-F ap-v-f P-V-F V DC a-v-f -V-F ap-v-f P-V-F 9V DC a-9v-f -9V-F ap-9v-f P-9V-F V DC a-v-f -V-F ap-v-f P-V-F V DC a-v-f -V-F ap-v-f P-V-F V DC a-v-f -V-F ap-v-f P-V-F V DC -V-F P-V-F
RATING. Coil data Contact arrangement Form A Form C Nominal coil voltage Pick-up voltage (at C F) Drop-out voltage (at C F) Nominal operating current [±%] (at C F) Coil resistance [±%] (at C F) V DC V DC : %V or less of.ma.ma Ω Ω 9V DC nominal voltage (Initial) %V or more of.ma Ω nominal voltage V DC : (Initial).mA Ω V DC V DC %V or less of nominal voltage (Initial).mA.mA, Ω, Ω V DC ma.ω V DC :.ma 9 Ω %V or less of 9V DC nominal voltage (Initial) %V or more of.ma.ω V DC nominal voltage.ma Ω V DC : (Initial).mA Ω %V or less of V DC nominal voltage (Initial).mA, Ω V DC.mA, Ω Nominal operating power (at C F) applied voltage * Specifications will vary with foreign standards certification ratings. Notes: *. This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. *. Wave is standard shock voltage of ±. µs according to JEC--9 *. The upper limit of the ambient temperature is the maximum temperature that can satisfy the coil temperature rise value. Refer to Usage, transport and storage conditions in NOTES. *. When using relays in a high ambient temperature, consider the pick-up voltage rise due to the high temperature (a rise of approx..% V for each C. F with C F as a reference) and use a coil impressed voltage that is within the maximum applied voltage range. mw mw % of nominal voltage (at C F) % of nominal voltage (at C F) [When using relays at C F, see Notes*] % of nominal voltage (at C F) % of nominal voltage (at C F) [When using relays at C F, see Notes*]. Specifications Characteristics Item Specifications Arrangement Form A Form C Form A Form C Contact Contact resistance (Initial) mω (By voltage drop V DC A) Contact material AgSnO type Rating Electrical characteristics Mechanical characteristics Nominal switching capacity (resistive load) switching power (resistive load) A V AC, A V AC, A V DC VA, W A V AC, A V AC, A V AC A V AC, A V AC, A V DC VA, 9 W VA, W A V AC, A V AC, A V DC, V AC, W A V AC, A V AC, A V AC A V AC, A V AC, A V DC, VA, W V AC, W switching voltage V AC, V DC (.A) switching current : A, N.C.: A : A, N.C.: A Nominal operating power mw mw mw mw switching capacity (reference value)* ma, V DC Insulation resistance (Initial), MΩ (at V DC) Measurement at same location as Breakdown voltage section. Breakdown voltage Between open contacts, Vrms for min. Vrms for min., Vrms for min. Vrms for min. (Initial) Between contact and coil, Vrms for min. (Detection current: ma) Temperature rise (coil) C F (By resistive method, nominal coil voltage applied to the coil; contact carrying current: A, at C F) C F (By resistive method, nominal coil voltage applied to the coil; contact carrying current: A, at C F) Surge breakdown voltage* (Between contact and coil) (Initial), V (at nominal voltage) (at C F) (Initial) ms (excluding contact bounce time.) (at nominal voltage) (at C F) (Initial) ms (excluding contact bounce time) (Without diode) Shock resistance Functional 9 m/s (Half-wave pulse of sine wave: ms; detection time: µs.) Destructive 9 m/s (Half-wave pulse of sine wave: ms.) Vibration resistance Functional to Hz at double amplitude of. mm (Detection time: µs.) Destructive to Hz at double amplitude of. mm Expected life Mechanical (at times/min.) Ambient temperature: C to + C F to + F (class E insulation), Conditions Conditions for operation, transport and storage* C to + C F to + F* (class B insulation) Humidity: to % R.H. (Not freezing and condensing at low temperature) operating speed times/min. (at nominal switching capacity) Unit weight Approx. g. oz
. Expected electrical life Type Switching capacity No. of operations Form A Form C Form A Form C N.C. N.C. A V AC A V AC A V AC A V DC A V AC A V AC A V AC A V DC A V AC A V AC A V DC A V AC A V AC A V DC A V AC A V AC A V DC A V AC A V AC A V DC REFERENCE DATA.-() switching capacity ( Form A type).-() switching capacity ( Form C type) () (), Contact voltage, V () side () side () N.C. side () N.C. side, Contact voltage, V. Life curve Ambient temperature: room temperature.-() Operate & release time ( Form A type) Tested sample: a-v-f, pcs..-() Operate & release time ( Form C type) Tested sample: -V-F, pcs. Life, V AC resistive load V AC resistive load
.-() Coil temperature rise ( Form A type) Contact carrying current: A, A.-() Coil temperature rise ( Form C type) Contact carrying current: A, A A at C A at C A at C A at C A at C A at C 9.-() Ambient temperature characteristics ( Form A type) Tested sample: a-v-f Contact carrying current: A, A 9.-() Ambient temperature characteristics ( Form C type) Tested sample: -V-F Contact carrying current: A, A 9 Allowable ambient temperature against set as C F) (Carrying current: A) Allowable ambient temperature against set as C F) (Carrying current: A) Allowable ambient temperature against set as C 9 F) (Carrying current: A) Allowable ambient temperature against set as C 9 F) (Carrying current: A) Pick-up voltage with a hot-start condition of %V on the coil (Carrying current: A) Pick-up voltage with a hot-start condition of %V on the coil (Carrying current: A) Pick-up voltage. Life curve Ambient temperature: room temperature.-() Operate & release time ( Form A type) Tested sample: ap-v-f, pcs..-() Operate & release time ( Form C type) Tested sample: P-V-F, pcs. Life, V V.-() Coil temperature rise ( Form A type) Contact carrying current: A, A.-() Coil temperature rise ( Form C type) Contact carrying current: A, A A at C A at C A at C A at C A at C A at C
.-() Ambient temperature characteristics ( Form A type) Tested sample: ap-v-f Contact carrying current: A, A 9.-() Ambient temperature characteristics ( Form C type) Tested sample: P-V-F Contact carrying current: A, A 9 Allowable ambient temperature against set as C F) (Carrying current: A) Allowable ambient temperature against set as C F) (Carrying current: A) Allowable ambient temperature against set as C 9 F) (Carrying current: A) Allowable ambient temperature against set as C 9 F) (Carrying current: A) Pick-up voltage with a hot-start condition of %V on the coil (Carrying current: A) Pick-up voltage with a hot-start condition of %V on the coil (Carrying current: A) Pick-up voltage DIMENSIONS (mm inch) CAD Data Form A The CAD data of the products with a CAD Data mark can be downloaded from: http://panasonic-electric-works.net/ac External dimensions Schematic (Bottom view) Form A Form C.9. COM COM Coil Coil.. N.C.............. dia..... dia.... Form C PC board pattern (Bottom view) Form A FormC.9. -. dia... -. dia....... -. dia. -. dia...................... dia..... dia........ Tolerance: ±. ±. Dimension: General tolerance Less than mm.9inch: ±. ±. mm.9inch less than mm.9 inch: ±. ±. mm.9 inch: ±. ±.
SAFETY STANDARDS Item (A) Form A (A) Form C (A) Form A (A) Form C UL/C-UL (Recognized) CSA (Certified) VDE (Certified) TÜV (Certified) SEMKO (Certified) File No. Contact rating File No. Contact rating File No. Contact rating File No. Rating File No. Contact rating E A V AC LR A V AC A V AC (cosφ=.) B 9 A V AC (cosφ=.) ()A V AC A V AC A V AC A V DC (ms) ()A V AC A V DC A V DC A V DC.A V DC.A V DC /HP V AC /HP V AC /HP V AC /HP V AC E E E A V AC A V AC A V DC.A V DC /HP V AC /HP V AC A V AC A V AC A V DC.A V DC /HP V AC /HP V AC A V AC A V AC A V DC.A V DC /HP V AC /HP V AC LR LR LR A V AC A V AC A V DC.A V DC /HP V AC /HP V AC A V AC A V AC A V DC.A V DC /HP V AC /HP V AC A V AC A V AC A V DC.A V DC /HP V AC /HP V AC A V AC (cosφ=.) () A V AC (cosφ=.) (N.C.) B 9 A V AC (cosφ=.) B 9 () A V AC (cosφ=.) (N.C.) A V AC (cosφ=.) B 9 A V AC (cosφ=.) A V DC (ms) A V AC (cosφ=.) A V DC (ms) A V AC (cosφ=.) A V DC (ms) ()A V AC ()A V AC A V DC ()A V AC A V DC ()A V AC A V DC NOTES Note about relay installation orientation Top When installing with the relay terminals parallel to the ground, the contact terminals at the bottom and the coil terminals at the top, component friction will occur after numerous switching actions or due to vibration in the non-excitation state. Since this may cause the relay to stop functioning when the pick-up voltage increases even if the nominal voltage is applied, please do not install using this orientation. Bottom For Cautions for Use.