Automation Controls Catalog Compact size 2 Form A and 2 Form A 1 Form B 35A power relays for energy management and industrial equipment TYPICAL APPLICATIONS Protective constructionFlux-resistant type 36 HE-S RELAYS * * * * * 30 Photovoltaic power generation systems (Solar inverter) Uninterruptible Power Supplies (UPS) Inverter Office air conditioner Industrial equipment 40 Unitmm FEATURES 1. High-capacity and long life 35A 277V AC 5x104 (long life type) 7. Contact gap (initial) * Form A contact: Min. 3.2 mm .126 inch/each contact * Form B contact: Min. 0.7 mm .028 inch Min. 0.5 mm .020 inch (When Form A contact welded) 2. Electrical life (resistive load) Form A contact 35A 277V AC 30A 220V AC 20A 277V AC Standard type 3x104 -- 1x105 Long life type 5x104 1x105 2x105 8. Mirror contact mechanisms (Compliant with EN60947-4-1 mirror contact) 3. Compact size and low operating power W: 30 x L: 36 x H: 40 mm W: 1.181 x L: 1.417 x H: 1.575 inch Operating power: 1,880 mW (holding power: 170 mW) Detection of main contact welding makes it possible to construct a safety circuit. * Designed so that Form A contact and Form B contact will not close at the same time. * When Form A contact welded, Form B contact gap of at least 0.5 mm .020 inch is maintained. 4. Reduced coil holding voltage contributes to saving energy of equipment The coil holding voltage can be reduced up to 30%V of the nominal coil voltage. This equals to operating power of approximately 170 mW, which contributes equipment energy savings. * Form B contact, when used to monitor the condition of Form A contact, can be used exclusively as an auxiliary contact. * Coil holding voltage is the coil voltage after 100 ms from the applied nominal coil voltage. 5. Contact gap: 3.2 mm .126 inch (VDE0126 compliant) Compliant with European photovoltaic standard VDE0126 Compliant with EN61810-1 2.5 kV surge breakdown voltage (between contacts) Mirror contact mechanisms 6. Insulation distance (initial) * Between Form A contact and coil: Min. 11.0 mm .433 inch (Clearance/Creepage) * Between Form B contact and coil: Min. 3.2 mm .126 inch (Clearance/Creepage) * Between Form A contact sets: Min. 8.2 mm .323 inch (Clearance/Creepage) * Between Form A contact and Form B contact: Min. 12.8 mm .504 inch (Clearance/Creepage) 2019.03 industrial.panasonic.com/ac/e/ Conditions 1 Normal operation Non-excitation Form A contact Form B contact Excitation Form A contact Form B contact When Form A contact welded Non-excitation Form A contact Welding (c) Panasonic Corporation 2019 Form B contact Min. 0.5mm ASCTB360E 201903 HE-S (AHES3, 4) ORDERING INFORMATION AHES 9 Contact arrangement/Operating function 32 Form A Single side stable type 42 Form A 1 Form B Single side stable type Contact specifications 1Standard type 2Long life type Terminals shape 9PC board terminal type Nominal coil voltageDC 06V, 112V, 224V, 348V, 59V NoteCertified by UL/C-UL and VDE TYPES Contact arrangement Part No. Nominal coil voltage 2 Form A 2 Form A 1 Form B Standard type AHES3190 AHES3195 AHES3191 AHES3192 AHES3193 AHES4190 AHES4195 AHES4191 AHES4192 AHES4193 6V DC 9V DC 12V DC 24V DC 48V DC 6V DC 9V DC 12V DC 24V DC 48V DC Long life type AHES3290 AHES3295 AHES3291 AHES3292 AHES3293 AHES4290 AHES4295 AHES4291 AHES4292 AHES4293 Standard packing: Carton: 25 pcs.; Case: 100 pcs. RATING 1.Coil data * Operating characteristics such as `Operate voltage' and `Release voltage' are influenced by mounting conditions, ambient temperature, etc. Therefore, please use the relay within 5% of rated coil voltage. * `Initial' means the condition of products at the time of delivery. Nominal coil voltage 6V DC 9V DC 12V DC 24V DC 48V DC Pick-up voltage (at 20C 68F) (Initial) 75%V or less of nominal voltage Drop-out voltage (at 20C 68F) (Initial) 5%V or more of nominal voltage Nominal operating current [10%] (at 20C 68F) 313mA 209mA 157mA 78mA 39mA Coil resistance [10%] (at 20C 68F) 19.1 43.1 76.6 306.4 1,225.5 Nominal operating power (at 20C 68F) Max. applied voltage (at 55C 131F) ON: 1,880mW Holding: 170mW*1 110%V of nominal coil voltage 150%V of nominal coil voltage*2 Notes: *1. With 30%V coil holding voltage *2. With no more than 24 hours per time with non-consecutive voltage application time. Panasonic Corporation Electromechanical Control Business Division industrial.panasonic.com/ac/e/ 2 (c) Panasonic Corporation 2019 ASCTB360E 201903 HE-S (AHES3, 4) 2. Specifications Characteristics Item Arrangement Contact Form A contact Form B contact*6 Form A contact Rating Form B contact*6 Contact resistance (Initial) Contact material Contact resistance (Initial) Contact material Nominal switching capacity (Resistive load) Max. switching voltage Contact carring power (Resistive load) Max. switching current Min. switching capacity (Reference value)*1 Nominal switching capacity (Resistive load) Max. switching voltage Contact carring power (Resistive load) Max. switching current Min. switching capacity (Reference value)*1 Nominal operating power Electrical characteristics Mechanical characteristics Expected life Conditions Specifications Standard type Long life type 2 Form A, 2 Form A 1 Form B 2 Form A, 2 Form A 1 Form B Max. 100m (By voltage drop 6V DC 1A), Max. 3m (By voltage drop 6V DC 20A, Reference value) AgSnO2 type Max. 100m (By voltage drop 6V DC 1A) Au flashed AgNi type 35A 277V AC 480V AC, 110V DC 9,695VA 35A 100mA 5V DC 1A 277V AC, 1A 30V DC 277V AC, 30V DC 277VA 1A 10mA 5V DC 1,880mW (after applying min.100ms coil nominal voltage) 170mW (30%V of coil holding voltage) Min. 1,000M (at 500 V DC) Measurement at same location as "Breakdown voltage" section. Max. 1,000A 1 ms, 3 times (Reference value) 2,000 Vrms for 1 min. (Detection current: 10mA) 5,000 Vrms for 1 min. (Detection current: 10mA) 5,000 Vrms for 1 min. (Detection current: 10mA) 1,000 Vrms for 1 min. (Detection current: 10mA) 2,000 Vrms for 1 min. (Detection current: 10mA) Insulation resistance (Initial) Short current (A contact, Initial) Between open Form A contacts Between Form A contact and coil Breakdown Between Form A contact sets voltage Between open Form B contacts (Initial) Between Form B contact and coil Between Form A contact and Form 5,000 Vrms for 1 min. (Detection current: 10mA) B contact 2 Surge breakdown voltage* 10,000V (Between Form A contact and coil) (Initial) (Between contact and coil) 2,500V (Between Form B contact and coil) (Initial) 30 to 110%V (Form A contact carrying current: 35A, at -40 to +55C -40 to +131F) Coil holding voltage*3 30 to 60%V (Form A contact carrying current: 35A, at -40 to +85C -40 to +185F) Operate time (at 20C 68F) (Initial) Max. 30 ms (at nominal coil voltage, excluding contact bounce time) Release time (at 20C 68F)*4 (Initial) Max. 10 ms (at nominal coil voltage, excluding contact bounce time, without diode) Functional 98 m/s2 (Half-wave pulse of sine wave: 11 ms; detection time: 10 s) Shock resistance Destructive 980 m/s2 (Half-wave pulse of sine wave: 6 ms) Functional 10 to 55 Hz at double amplitude of 1.0 mm .039 inch (Detection time: 10 s) Vibration resistance Destructive 10 to 55 Hz at double amplitude of 1.5 mm .059 inch Mechanical Min. 5x106 (at 180 times/min.) Min. 3x104 (35A 277V AC) (ON : OFF = 1s : 9s) Min. 5x104 (35A 277V AC) (ON : OFF = 1s : 9s) Resistive load -- Min. 1x105 (30A 220V AC) (ON : OFF = 1s : 9s) Electrical (Form A Min. 1x105 (20A 277V AC) (ON : OFF = 1s : 9s) Min. 2x105 (20A 277V AC) (ON : OFF = 1s : 9s) contact) Min. 5x104 (35A 250V AC) (cos = 0.8) Min. 3x104 (35A 250V AC) (cos = 0.8) Inductive load (ON : OFF = 0.1s : 10s) (ON : OFF = 0.1s : 10s) Electrical Min. 1x105 (1A 277V AC) (ON : OFF = 1s : 9s) Resistive load (Form B Min. 1x105 (1A 30V DC) (ON : OFF = 1s : 9s) contact)*6 Conditions for operation, transport and storage*5 Unit weight Temperature: -40 to +55C -40 to +131F (Coil holding voltage 30 to 110%V) Temperature: -40 to +85C -40 to +185F (Coil holding voltage 30 to 60%V or storage) Humidity: 5 to 85% R.H. (Not freezing and condensing at low temperature) Air pressure: 86 to 106 kPa Approx. 64 g 2.26 oz Notes: *1. 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. *2. Wave is standard shock voltage of 1.2x50s according to JEC-212-1981 *3. Coil holding voltage is the coil voltage after 100 ms from the applied nominal coil voltage. *4. Release time will lengthen if a diode, etc., is connected in parallel to the coil. Be sure to verify operation under actual conditions. *5. The upper operation ambient temperature limit is the maximum temperature that can satisfy the coil temperature rise value. Refer to Usage, transport and storage conditions in NOTES. *6. Regarding Form B contact, only the 2 Form A 1 Form B type applies. Panasonic Corporation Electromechanical Control Business Division industrial.panasonic.com/ac/e/ 3 (c) Panasonic Corporation 2019 ASCTB360E 201903 HE-S (AHES3, 4) REFERENCE DATA 1. Maximum switching power 3. Coil temperature rise 2. Life curve 1,000 50 500 30 20 15 10 5 DC AC resistive load resistive load 1 80 250V AC resistive load 100 0.5 Temperature rise 100 No. of operationsx10 4 Contact currentA Measured portionCoil inside Contact current35A, 0A Ambient temperature25, 85 50 Long life type 10 60 85 35A 25 0A 50 40 85 0A 30 20 Standard type 5 25 35A 70 10 0.1 10 30 1 100 480 500 1,000 Contact voltageV 0 5 10 15 20 25 30 35 Contact currentA 0 50 40 60 70 80 90 100 Coil applied voltage%V 110 4. Ambient temperature characteristics Rate of change Tested sampleAHES3191, 6 pcs. 60 40 20 Operate voltage 30 20 10 0 10 20 40 60 80 100 Ambient temperature Release 20 voltage 30 DIMENSIONS (mm) CAD The CAD data of the products with a "CAD" mark can be downloaded from our Website. 1. 2 Form A type External dimensions CAD Schematic (Bottom view) 36 30 5 2 7 1 8 4 2 40 (38) 4 27 7.6 2.4 7.6 21.6dia. 1 43.3 19 Panasonic Corporation Electromechanical Control Business Division industrial.panasonic.com/ac/e/ 1.6 11 40.8 11 21.3 21.3 20.8dia. 24.4 29.4 Recommended PC board pattern (Bottom view) R0.8 4 19 General tolerance 0.3 4 (c) Panasonic Corporation 2019 Tolerance 0.1 ASCTB360E 201903 HE-S (AHES3, 4) 2. 2 Form A 1 Form B type External dimensions CAD Schematic (Bottom view) 36 30 4 5 6 2 7 1 8 4 2 40 (38) 3 21.2 2.4 22.9 7.6 21.6dia. 22.2dia. 1.6 11 40.8 11 21.3 21.2 20.8dia. 24.4 29.4 21.3 27 22.9 7.6 Recommended PC board pattern (Bottom view) R0.8 19 Tolerance 0.1 43.3 1 4 General tolerance 0.3 19 SAFETY STANDARDS Item Certification 2 Form A Standard type (AHES*19*) 2 Form A 1 Form B 2 Form A 2 Form A 1 Form B Item 2 Form A Long life type (AHES*29*) 2 Form A 1 Form B 2 Form A 2 Form A 1 Form B File No. UL/C-UL (Recognized) E43149 VDE (Certified) 40042442 Certification File No. UL/C-UL (Recognized) E43149 VDE (Certified) 40042442 N.O. contact (Form A contact) Contact rating Temp. 35A, 277VAC, Resistive 20A, 277VAC, Resistive 15A, 480VAC, Resistive TV-8 Cycles 85C 185F 85C 185F 85C 185F 40C 104F 3x104 105 105 25x103 AC-7a: 35A, 250VAC, cos = 0.8 85C 185F AC-3: 12A, 230VAC, cos = 0.45 85C 185F AC-3: 8A, 480VAC, cos = 0.45 85C 185F 3x104 3x104 3x104 N.O. contact (Form A contact) Contact rating Temp. 35A, 277VAC, Resistive 20A, 277VAC, Resistive 15A, 480VAC, Resistive TV-10 Cycles 85C 185F 85C 185F 85C 185F 40C 104F 5x104 2x105 105 25x103 AC-7a: 35A, 250VAC, cos = 0.8 85C 185F AC-3: 12A, 230VAC, cos = 0.45 85C 185F AC-3: 8A, 480VAC, cos = 0.45 85C 185F 3x104 3x104 3x104 N.C. contact (Form B contact) Contact rating Temp. -- Cycles -- -- 85C 185F 85C 185F 105 105 -- -- -- DC-13: 1A, 24VDC, L/R = 48ms 85C 185F 8x104 N.C. contact (Form B contact) Contact rating Temp. Cycles 1A, 30VDC, Resistive 1A, 277VAC, Resistive -- -- -- 85C 185F 85C 185F 105 105 -- -- -- DC-13: 1A, 24VDC, L/R = 48ms 85C 185F 8x104 1A, 30VDC, Resistive 1A, 277VAC, Resistive EN/IEC VDE Certified INSULATION CHARACTERISTIC (IEC61810-1) Item Clearance/Creepage distance (IEC61810-1) Category of protection (IEC61810-1) Tracking resistance (IEC60112) Insulation material group Over voltage category Rated voltage Pollution degree Type of insulation (Between contact and coil) Type of insulation (Between open contacts) Panasonic Corporation Electromechanical Control Business Division industrial.panasonic.com/ac/e/ Characteristic (Form A contact) Min. 5.5mm .217inch/8.0mm .315inch RT II PTI 175 III a III 250V 3 Reinforced insulation Full disconnection 5 (c) Panasonic Corporation 2019 ASCTB360E 201903 HE-S (AHES3, 4) NOTES 1. For cautions for use, please refer to our web site. (https://www3.panasonic.biz/ac/e/control/relay/cautions_use/index.jsp) 2. When coil holding voltage controlled by PWM, check coil holding voltage and operation of relay under the actual condition. 3. Usage, transport and storage conditions 1) Temperature: -40 to +55C -40 to +131F (When applied coil holding voltage is 30% to 110%V of nominal coil voltage) -40 to +85C -40 to +185F (When applied coil holding voltage is 30% to 60%V of nominal coil voltage or storage) 2) Humidity: 5 to 85% RH (Not freezing and condensing at low temperature) In addition the humidity range depends on temperature. The allowable ranges are as follows; 3) Air pressure: 86 to 106 kPa Allowable range of temperature and humidity for operation, transport and storage. [Coil holding voltage: 30% to 110%V] [Coil holding voltage: 30% to 60%V] HumidityRH HumidityRH 85 85 Allowable range Allowable range Avoid condensation when used at temperatures higher than 0 Avoid icing when used at temperatures lower than 0 5 40 0 55 Ambient temperature Avoid icing when used at temperatures lower than 0 5 Avoid condensation when used at temperatures higher than 0 40 0 Ambient temperature 85 4. Solder and cleaning conditions 1) Please obey the following conditions when soldering automatically. (1) Pre-heating: within 120C 248F (solder surface terminal portion) and within 120 seconds (2) Soldering iron: 260C5C 500F41F (solder temperature) and within 10 seconds (soldering time) 2) In case of manual soldering, following conditions should be observed. * Max. 270C 518F (solder temperature) within 10 seconds (soldering time) * Max. 350C 662F (solder temperature) within 5 seconds (soldering time) * Effects of soldering heat on the relays vary depending on the PC board. So please confirm actual soldering condition with the PC board used for assembling. 3) Do not clean this relay by immersion, since the relay is not sealed. Also, be careful not to allow flux to overflow above the PC board or enter the inside of the relay. Please refer to "the latest product specifications" when designing your product. * Requests to customers : https://industrial.panasonic.com/ac/e/salespolicies/ Panasonic Corporation Electromechanical Control Business Division industrial.panasonic.com/ac/e/ 6 (c) Panasonic Corporation 2019 ASCTB360E 201903 GUIDELINES FOR POWER RELAYS AND HIGH-CAPACITY DC CUT OFF RELAYS USAGE For cautions for use, please read "GUIDELINES FOR RELAY USAGE". https://industrial.panasonic.com/ac/e/control/relay/cautions_use/index.jsp Precautions for Coil Input Long term current carrying Maximum allowable voltage and temperature rise A circuit that will be carrying a current continuously for long periods without relay switching operation. (circuits for emergency lamps, alarm devices and error inspection that, for example, revert only during malfunction and output warnings with form B contacts) Continuous, long-term current to the coil will facilitate deterioration of coil insulation and characteristics due to heating of the coil itself. For circuits such as these, please use a magnetic-hold type latching relay. If you need to use a single stable relay, use a sealed type relay that is not easily affected by ambient conditions and make a failsafe circuit design that considers the possibility of contact failure or disconnection. Proper usage requires that the rated coil voltage be impressed on the coil. Note, however, that if a voltage greater than or equal to the maximum continuous voltage is impressed on the coil, the coil may burn or its layers short due to the temperature rise. Furthermore, do not exceed the usable ambient temperature range listed in the catalog. Operate voltage change due to coil temperature rise (Hot start) In DC relays, after continuous passage of current in the coil, if the current is turned OFF, then immediately turned ON again, due to the temperature rise in the coil, the pick-up voltage will become somewhat higher. Also, it will be the same as using it in a higher temperature atmosphere. The resistance/temperature relationship for copper wire is about 0.4% for 1C, and with this ratio the coil resistance increases. That is, in order to operate of the relay, it is necessary that the voltage be higher than the pick-up voltage and the pick-up voltage rises in accordance with the increase in the resistance value. However, for some polarized relays, this rate of change is considerably smaller. DC Coil operating power Steady state DC current should be applied to the coil. The wave form should be rectangular. If it includes ripple, the ripple factor should be less than 5%. However, please check with the actual circuit since the electrical characteristics may vary. The rated coil voltage should be applied to the coil and the set/reset pulse time of latching type relay differs for each relays, please refer to the relay's individual specifications. Coil connection When connecting coils of polarized relays, please check coil polarity (+,-) at the internal connection diagram (Schematic). If any wrong connection is made, it may cause unexpected malfunction, like abnormal heat, fire and so on, and circuit do not work. Avoid impressing voltages to the set coil and reset coil at the same time. Ambient Environment Dew condensation Usage, Transport, and Storage Conditions Condensation occurs when the ambient temperature drops suddenly from a high temperature and humidity, or the relay is suddenly transferred from a low ambient temperature to a high temperature and humidity. Condensation causes the failures like insulation deterioration, wire disconnection and rust etc. Panasonic Corporation does not guarantee the failures caused by condensation. The heat conduction by the equipment may accelerate the cooling of device itself, and the condensation may occur. Please conduct product evaluations in the worst condition of the actual usage. (Special attention should be paid when high temperature heating parts are close to the device. Also please consider the condensation may occur inside of the device.) During usage, storage, or transportation, avoid locations subjected to direct sunlight and maintain normal temperature, humidity and pressure conditions. Temperature/Humidity/Pressure When transporting or storing relays while they are tube packaged, there are cases the temperature may differ from the allowable range. In this case be sure to check the individual specifications. Also allowable humidity level is influenced by temperature, please check charts shown below and use relays within mentioned conditions. (Allowable temperature values differ for each relays, please refer to the relay's individual specifications.) Icing Condensation or other moisture may freeze on relays when the temperature become lower than 0C.This icing causes the sticking of movable portion, the operation delay and the contact conduction failure etc. Panasonic Corporation does not guarantee the failures caused by the icing. The heat conduction by the equipment may accelerate the cooling of relay itself and the icing may occur. Please conduct product evaluations in the worst condition of the actual usage. Low temperature and low humidity The plastic becomes brittle if the switch is exposed to a low temperature, low humidity environment for long periods of time. High temperature and high humidity Storage for extended periods of time (including transportation periods) at high temperature or high humidity levels or in atmospheres with organic gases or sulfide gases may cause a sulfide film or oxide film to form on the surfaces of the contacts and/or it may interfere with the functions. Check out the atmosphere in which the units are to be stored and transported. 1) Temperature: The tolerance temperature range differs for each relays, please refer to the relay's individual specifications 2) Humidity: 5 to 85 % RH 3) Pressure: 86 to 106 kPa Humidity, %R.H. 85 Allowable range (Avoid icing when used at temperatures lower than 0 C) 5 -40 (Avoid condensation when used at temperatures higher than 0 C) 0 Ambient temperature, C 85 Panasonic Corporation Electromechanical Control Business Division industrial.panasonic.com/ac/e/ -1- c Panasonic Corporation 2019 ASCTB412E 201903 GUIDELINES FOR POWER RELAYS AND HIGH-CAPACITY DC CUT OFF RELAYS USAGE Package In terms of the packing format used, make every effort to keep the effects of moisture, organic gases and sulfide gases to the absolute minimum. Silicon When a source of silicone substances (silicone rubber, silicone oil, silicone coating materials and silicone filling materials etc.) is used around the relay, the silicone gas (low molecular siloxane etc.) may be produced. This silicone gas may penetrate into the inside of the relay. When the relay is kept and used in this condition, silicone compound may adhere to the relay contacts which may cause the contact failure. Do not use any sources of silicone gas around the relay (Including plastic seal types). NOx Generation When relay is used in an atmosphere high in humidity to switch a load which easily produces an arc, the NOx created by the arc and the water absorbed from outside the relay combine to produce nitric acid. This corrodes the internal metal parts and adversely affects operation. Avoid use at an ambient humidity of 85%RH or higher (at 20C). If use at high humidity is unavoidable, please contact our sales representative. Others Cleaning 1) Although the environmentally sealed type relay (plastic sealed type, etc.) can be cleaned, avoid immersing the relay into cold liquid (such as cleaning solvent) immediately after soldering. Doing so may deteriorate the sealing performance. 2) Cleaning with the boiling method is recommended(The temperature of cleaning liquid should be 40C or lower ). Avoid ultrasonic cleaning on relays. Use of ultrasonic cleaning may cause breaks in the coil or slight sticking of the contacts due to ultrasonic energy. Please refer to "the latest product specifications" when designing your product. *Requests to customers: https://industrial.panasonic.com/ac/e/salespolicies/ Panasonic Corporation Electromechanical Control Business Division industrial.panasonic.com/ac/e/ -2- c Panasonic Corporation 2019 ASCTB412E 201903 2019 ASCTB360E-1 201903