Panasonic is part of a large worldwide groupselling relays and associated switching products under different brand names in different territories.The conditions of use in some territories may differ from those customary in Europe. In particular there are often major differences in regard to national and international specifications, such as UL, CSA, VDE, SEV, EVE, SEMKO, etc. Thus, when considering contact loads as stated in this catalogue (e.g. 10 A, 30 VDC for the SP relay) its hould be understood that these values are not necessarily an absolute maximum but tested ratings. Mostly the stated value has been tested for a certain life expectancy as stated by the manufacturer or the respective test house. Thus, under different conditions, the stated “maximum” may, in practice, be safely exceeded.
Form Form (Detection current: mA)
Temperature rise (coil)
1 Form Max.
*4. Usage, Storage and Transport
Conditions” AMBIENT ENVIRONMENT (page 626). Wave standard shock voltage ±1.
Unit weight Approx., Sealed type: times/min.H.2x50p,s according JEC-212-1981
*3. switching voltage 250V AC, 30V DC
Max.
*2. (excluding contact bounce time) (Without diode)
Mechanical
characteristics
Shock resistance
Functional m/s2(Half-wave pulse sine wave: ms; detection time: 10|as. Specifications
Characteristics Item
Specifications
Standard type High capacity type
Contact
Contact material
1 Form AgSnO2type
1 Form Form and Form AgNi type
Arrangement Form Form Form and Form Form and Form C
Contact resistance (Initial) Max.46 oz
* Specifications will vary with foreign standards certification ratings. 100 (By voltage drop 1A)
Rating
Nominal switching capacity (resistive load) 250V AC, 30V 10A 250V AC, 10A 30V DC
Max.) Min.
Breakdown voltage
(Initial)
Between open contacts 1,000 Vrms for min.) Min.)
Vibration resistance
Functional double amplitude 1. switching power (resistive load) 1,250VA, 150W 2,500VA, 300W
Max.)
Destructive 980 m/s2(Half-wave pulse sine wave: ms.JW
2. This value can change due the switching frequency, environmental conditions, and desired reliability level, therefore recommended check this with the actual load.
REFERENCE DATA
JW Form Standard (5A) type perate/release tim Life curve
1. switching current
<
o
<
LO
Min. The pick-up and drop out voltages rise approximately 0. switching capacity (reference value)*1 100mA, DC
Electrical
characteristics
Insulation resistance (Initial) Min. (Detection current: mA)
Between contact sets 3,000 Vrms for min.6 (Detection time: 10|as. 5x106
Electrical (at times/min. The upper limit the ambient temperature the maximum temperature that can satisfy the coil temperature rise value. Form Standard type
Ambient temperature: 20°C 68°F
ds_61B08_en_jw: 150313D 277
Power
. 55°C 131°F
(resistive method, with nominal coil voltage and
at nominal switching capacity, 20°C 68°F)
1 Form Max. Refer “6. (excluding contact bounce time. (Detection current: mA)
Between contact and coil 5,000 Vrms for min.0 mm
Expected life
Mechanical (at 180 times/min.)
Destructive double amplitude 2. . 55°C 131°F
(resistive method, with nominal coil voltage and
at nominal switching capacity, 20°C 68°F)
Surge breakdown voltage*2
(Between contact and coil) (Initial)
10,000 V
Operate time (at nominal voltage) (at 20°C 68°F) Max. Max operating pow Sample: JW1aSN-DC12V-F, pcs.)
Release time (at nominal voltage) (at 20°C 68°F) Max.8°F given standard ambient temperature 20°C 68°F. operating speed
(at nominal switching capacity)
Flux-resistant type: times/min. (Not freezing and condensing low temperature)
Max. 45°C 113°F,
1 Form Form and Form C:
Max.4% for every 1°C 33. 1,000MQ (at 500V DC) Measurement same location “Breakdown voltage” section. 105 (at resistive load)
Conditions
Conditions for operation, transport and storage*3
Ambient temperature*4: -40°C +60°C -40°F 140°F (Class E),
(Class -40°C +85°C -40°F 185 )
Humidity: 85% R.
Notes:
*1. 45°C 113°F,
1 Form Max. Therefore, when using relays where
the ambient temperature high, please take into consideration the rise pick-up and drop out voltages and keep the coil applied voltage within the maximum applied
voltage