Wireless E-Stops Systems in Accordance With Industrial Remote Controls
In order to eliminate costly hard wiring of fixed location emergency stop switches, bulk plant industrial wireless E-Stop systems are basically developed. You can install any number of wireless remote E-Stop switches within the plant facility. By the help of these systems you can communicate with one receiver/controller unit. Modern remote control technology has made these systems efficient to work in conjunction with any of your existing, hard-wired, manual E-Stop switches and plant safety controls. Operator worn E-Stop remotes can also be added to these systems.
E-Stop Transmitter Specifications:
€ In the industrial conditions, all these modern E-Stop systems are CSA, CE, and FCC approved to work.
€ It will cause the receiver/controller unit to trigger a plant shut-down when you pressing the emergency stop button. Until the E-Stop button is pulled out the system cannot be rebooted and a manual receiver/controller reset is performed.
€ All these e-Stop buttons are dual contact - dual channel and comply with global E-Stop switch requirements.
€ Triggering an automatic E-Stop with any loss of main line electrical power supply to the receiver/controller unit of industrial remote control switch systems will fail safe.
E-Stop Receiver/ Controller Specifications:
€ The receiver of the Emergency Stop switches are easily interfaced with electrical, pneumatic, nitrogen or mechanical plant shut-off equipment.
€ The handheld receiver systems of the industrial remote controls will operate with 12/24VDC or 120/240VAC power supplies.
€ Receiver/Controller outputs can be specified as 12/24VdC, 120/240VAC, dry contact, RS232, or J1939 CAN bus.
€ Electric/pneumatic solenoids can also supply on request by the manufacturers.
Generally two E-Stop models are available:
Model ASKF 100 AC:
Industrial remote control switch is a fixed-frequency remote E-Stop switch that generally operates at 433 MHz using two double €A€ batteries. When E-Stop switch is activated, the transmitter of this system is energized only. It also show a €low battery€ flashing LED on the E-Stop switch as well as on the receiver/controller unit with the help of battery test button that is also available in this industrial remote controls. They strongly recommended daily E-Stop transmitter battery tests and scheduled battery replacement in a short interval. When the remote E-Stop transmitter batteries are exhausted the E-Stop transmitters and receiver/controller shut-down will not operate.
Model DSSF 100 AC:
This is a direct sequence, spread-spectrum remote E-Stop switch that operates at 2.4 GHz using a rechargeable battery pack. With the help of a Safe Link option the E-Stop switch and receiver/controller unit are generally connected. The Safe Link option continuously monitors the system so that it works properly. Until the signal is restored, any loss of signal connection between the remote E-Stop switch and receiver/controller results in an automatic E-Stop trigger.
You will get an operating range of up to two miles if you use high powered E-Stop transmitters. But for the exact result the transmitters must be connected to a back-up power supply as the battery pack will operate for only seven days. The backup power can be 12/24VDC, 120/240VAC, and solar powered where practical.
E-Stop Transmitter Specifications:
€ In the industrial conditions, all these modern E-Stop systems are CSA, CE, and FCC approved to work.
€ It will cause the receiver/controller unit to trigger a plant shut-down when you pressing the emergency stop button. Until the E-Stop button is pulled out the system cannot be rebooted and a manual receiver/controller reset is performed.
€ All these e-Stop buttons are dual contact - dual channel and comply with global E-Stop switch requirements.
€ Triggering an automatic E-Stop with any loss of main line electrical power supply to the receiver/controller unit of industrial remote control switch systems will fail safe.
E-Stop Receiver/ Controller Specifications:
€ The receiver of the Emergency Stop switches are easily interfaced with electrical, pneumatic, nitrogen or mechanical plant shut-off equipment.
€ The handheld receiver systems of the industrial remote controls will operate with 12/24VDC or 120/240VAC power supplies.
€ Receiver/Controller outputs can be specified as 12/24VdC, 120/240VAC, dry contact, RS232, or J1939 CAN bus.
€ Electric/pneumatic solenoids can also supply on request by the manufacturers.
Generally two E-Stop models are available:
Model ASKF 100 AC:
Industrial remote control switch is a fixed-frequency remote E-Stop switch that generally operates at 433 MHz using two double €A€ batteries. When E-Stop switch is activated, the transmitter of this system is energized only. It also show a €low battery€ flashing LED on the E-Stop switch as well as on the receiver/controller unit with the help of battery test button that is also available in this industrial remote controls. They strongly recommended daily E-Stop transmitter battery tests and scheduled battery replacement in a short interval. When the remote E-Stop transmitter batteries are exhausted the E-Stop transmitters and receiver/controller shut-down will not operate.
Model DSSF 100 AC:
This is a direct sequence, spread-spectrum remote E-Stop switch that operates at 2.4 GHz using a rechargeable battery pack. With the help of a Safe Link option the E-Stop switch and receiver/controller unit are generally connected. The Safe Link option continuously monitors the system so that it works properly. Until the signal is restored, any loss of signal connection between the remote E-Stop switch and receiver/controller results in an automatic E-Stop trigger.
You will get an operating range of up to two miles if you use high powered E-Stop transmitters. But for the exact result the transmitters must be connected to a back-up power supply as the battery pack will operate for only seven days. The backup power can be 12/24VDC, 120/240VAC, and solar powered where practical.
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