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Part: 1-1393774-2
Category:
Discrete
-> Solid State relays
Description: Relay PCB 24vdc
Company:
Datasheet: Download 1-1393774-2 datasheet File size : 209 kB
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Datasheet text preview:
Miniature Relay P1
V23026
PCB relays Pin or SMD for DC operation, polarised, monostable or bistable
F eatur es
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Versions
Relay types: monostable, 1 winding or bistable, 2 windings or bistable, 1 winding With 1 changeover contact With bifurcated contacts FCC version on request. Testing of open contacts with surge voltage in accordance with FCC 68.302 (1.5 kV, 10/160 µs) passed Autom atically placeable from bar magazines (e.g. on Siemens HS-180) For SMD configuration, strap packaging possible on request For printed circuit assembling Immersion cleanable
Universal ultra miniature relay with optimum capabilities Directly triggerable with TTL standard modules such as ALS, HCT and ACT Especially high sensitivity Extremely small size: base area only 0.98 cm² or 1.07 cm² volume only 0.68 cm³ or 0.85 cm³ Relay system encapsulated in epoxy resin, thus especially immune to environmental influences Very high grade of shock resistance
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Typical applications
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Approvals
Storage element for input and output equipment Data and communication technology M edical equipment M easurement and control equipment Autom obile technology Safety engineering Toy engineering CSA UL File LR 45064-5 File E 48393 CECC Option: with qualification approval in accordance with CECC 16501-002/ VDE 400.74/04.90 for pin version
Siemens AG
3
Miniature Relay P1
Pin version
Dimension drawing (in mm)
ECR0995- P Approx. 1.5 x original size
Orie nta ti on mark (im pr inted )
Mounting hole layout
Vie w on the terminals Orie nta ti on mark
Ba sic grid 2.54 mm according to EN 60097 and DIN 40803
Terminal assignment
Vie w on the terminals
Monostable and bistable, 1 winding
Bistable, 2 windings
The contact position illustrated shows the release condition. If a positive potential is applied to terminal 3, the relay adopts the operating position.
The contact position illustrated shows the release condition. If a positive potential is applied to terminal 3 or a negative potential to terminal 6 as against terminal 8, the relay adopts the operating position.
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Siemens AG
Miniature Relay P1
SMD version
Dimension drawing (in mm)
10,9 max. including tin plating
ECR0994-G Approx. 1.5 x original size
Orientation mark (imprinted)
Solder pad layout
Attention: View onto the component side of the PCB! Orientation mark
Terminal assignment
View on the terminals
Monostable and bistable, 1 winding
Bistable, 2 windings
The contact position illustrated shows the release condition. If a positive potential is applied to terminal 3, the relay adopts the operating position.
The contact position illustrated shows the release condition. If a positive potential is applied to terminal 3 or a negative potential to terminal 6 as against terminal 8, the relay adopts the operating position. 5
Siemens AG
Miniature Relay P1
Contact data
Number of contacts and type Contact assembly Contact material Limiting continuous current at max. ambient temperature Maximum switching current Maximum switching voltage Maximum switching capacity DC voltage AC voltage Recommended for load voltages greater than Contact resistance (initial value) / measuring current / driver voltage 1 changeover contact Bifurcated contacts Pd Ni, Au Rh coated 1A 1A 125 V~ 150 V 30 W, see load limit curve 60 VA 100 µV 50 m / 10 mA / 20 mV
Load limit curve
I = switching current U = switching voltage = recommended application field
Load limit curve: Safe shutdown, no stationary arc > 10 ms
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Siemens AG
Miniature Relay P1
Coil data
Nominal voltages Nominal power consumption m onostable with 1 winding bistable with 2 windings bistable with 1 winding Operative range/pick-up class according to IEC 255-1-00 and VDE 0435 Part 201 Maximum operate voltage Maximum release voltage (bistable) Minimum release voltage (monostable) From 1.5 V to 24 V 65 ... 130 mW 65 ... 150 mW 30 ... 130 mW 1/a 75 % of nominal voltage 75 % of nominal voltage 10 % of nominal voltage
UI UI I
= M inimum voltage at 20 °C after pre-energizing with nominal voltage without contact current = M aximum continuous voltage at 20 °C
The operating voltage limits UI and UII are dependent on the temperature according to the formulae:
UI tamb = kI · UI 20 °C and UII tamb = kII · UII 20 °C tamb = UI tamb = UII tamb= kI a. kII =
Ambient temperature M inimum voltage at ambient temperature tamb M aximum voltage at ambient temperature tamb Factors (dependent on temperature), see diagram
Ambient temperature tamb [°C]
Siemens AG
7
Others parts begin by 10
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