SSAC-SYMCOM TDUBL3002A Solid State Relay Timer
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SSAC-SYMCOM TDUBL3002A Solid State Relay Timer
SSAC-SYMCOM TDUBL3002A Solid State Relay Timer
Part #:TDUBL3002A
SKU #: 2262724
Key Features
Part #:TDUBL3002A
SKU #: 2262724
Brand: Littelfuse
Coil Voltage: 12 to 24, 12 to 24 VDC
Contact Form: SPST/NO (1 Form A)
Dimensions: 2 in H x 2 in W x 1.21 in D
Electrical Connections: Male Quick Connect Terminal, Male Quick-Connect Terminal
Operation Mode: Delay On Break
- DIP switch adjustment provide setting accuracy of +/-2%
- User selectable time delay
- 1 A steady, 10 A inrush solid state output provide 100 million operations in typical conditions
- Totally solid state and encapsulated no moving parts to arc and wear out over time and encapsulated to protect against shock, vibration and humidity
SSAC-SYMCOM TDUBL3002A Solid State Relay Timer
Littelfuse SSAC Solid State Relay Timer, Digital Timing Circuitry, Series: TDUBL, Operation Mode: Delay On Break, SPST/NO (1 Form A) Contact Form, 0.1 to 102.3 s Time Setting, 12 to 24 VDC Coil, Male Quick-Connect Terminal Electrical Connections, -40 to 60 deg F, Surface Mounting, 2 in H x 2 in W x 1.21 in D
Additional Description: LTFS-TDUBL3002A DIGI-SET TIMER-DELAY ON BREAK
Catalog Description: The TDUB Series combines digital timing circuitry with universal voltage operation. Voltages of 24 to 240VAC and 12 to 24VDC are available in three ranges. The TDUB Series offers DIP switch selectable time delays ranging from 0.1 seconds to 102.3 minutes in three ranges. Its 1A rated output, ability to operate on multiple voltages, and wide range of switch selectable time delays make the TDUB Series an excellent choice for process control systems and OEM equipment. Operation (Delay-on-Break): Input voltage must be applied before and during timing. Upon closure of the initiate switch, the output energizes. The time delay begins when the initiate switch is opened (trailing edge triggered). The output remains energized during timing. At the end of the time delay, the output de-energizes. The output will energize if the initiate switch is closed when input voltage is applied. Reset: Reclosing the initiate switch during timing resets the time delay. Loss of input voltage resets the time de