function ChangeDisplay() { var fSwitchOn = document.getElementById("firstSliderOn"); var fSwitchOff = document.getElementById("firstSliderOff"); var sSwitchOn = document.getElementById("secondSliderOn"); var sSwitchOff = document.getElementById("secondSliderOff"); var imgOn = document.getElementById("firstDisplayON"); var imgOff = document.getElementById("firstDisplayOFF"); var tableOne = document.getElementById("tableOne"); var tableTwo = document.getElementById("tableTwo"); var tableThree = document.getElementById("tableThree"); var buttonsOneTable = document.getElementById("buttonsOneTable"); var buttonsTwoTable = document.getElementById("buttonsTwoTable"); var buttonsThreeTable = document.getElementById("buttonsThreeTable"); var fDisplayOnText = document.getElementById("firstDisplayONText"); var rp3000xtSection = document.getElementById("rp3000xtSection"); if(fSwitchOn.style.display === "none") { fSwitchOn.style.display = "block"; fSwitchOff.style.display = "none"; sSwitchOn.style.display = "none"; sSwitchOff.style.display = "block"; imgOn.style.display = "block"; imgOff.style.display = "none"; tableOne.style.display = "none"; tableTwo.style.display = "block"; tableThree.style.display = "none"; buttonsOneTable.style.display = "none"; buttonsTwoTable.style.display = "block"; buttonsThreeTable.style.display = "none"; rp3000xtSection.style.display = "none"; fDisplayOnText.style.display = "block"; } else { fSwitchOn.style.display = "none"; fSwitchOff.style.display = "block"; sSwitchOn.style.display = "none"; sSwitchOff.style.display = "none"; imgOn.style.display = "none"; imgOff.style.display = "block"; tableOne.style.display = "block"; tableTwo.style.display = "none"; tableThree.style.display = "none"; buttonsOneTable.style.display = "block"; buttonsTwoTable.style.display = "none"; buttonsThreeTable.style.display = "none"; rp3000xtSection.style.display = "flex"; fDisplayOnText.style.display = "none"; } }
function ChangeSecondDisplay() { var sSwitchOn = document.getElementById("secondSliderOn"); var sSwitchOff = document.getElementById("secondSliderOff"); var tableOne = document.getElementById("tableOne"); var tableTwo = document.getElementById("tableTwo"); var tableThree = document.getElementById("tableThree"); var buttonsOneTable = document.getElementById("buttonsOneTable"); var buttonsTwoTable = document.getElementById("buttonsTwoTable"); var buttonsThreeTable = document.getElementById("buttonsThreeTable"); if(sSwitchOn.style.display === "none") { sSwitchOn.style.display = "block"; sSwitchOff.style.display = "none"; tableOne.style.display = "none"; tableTwo.style.display = "none"; tableThree.style.display = "block"; buttonsOneTable.style.display = "none"; buttonsTwoTable.style.display = "none"; buttonsThreeTable.style.display = "block"; } else { sSwitchOn.style.display = "none"; sSwitchOff.style.display = "block"; tableOne.style.display = "none"; tableTwo.style.display = "block"; tableThree.style.display = "none"; buttonsOneTable.style.display = "none"; buttonsTwoTable.style.display = "block"; buttonsThreeTable.style.display = "none"; } }

Automatic Transfer Switch (ATS)

DTSC

DTSC-200A
Automatic Transfer Switch Controller
Auto-Start/ Stop
Auto / manual operation
Remote Start
Open transition transfer
Delayed Transition
Closed Transition Transfer
Mains-Generator application
Mains-Generator, Generator-Generator, Mains-Mains applications
True RMS voltage sensing
True RMS current and power sensing
In-Phase monitoring (synch check) for all transition types
freely configurable discrite I/O
Adjustable timers
Source Selection
Transfer / return inhibit
Extended parallel
Load shed and restore
Engine exerciser (load/no-load) routine with fully adjustable interval
Internal breaker interlock utilizing discrete inputs for breaker position detection
PC configuration & display configuration
password protection
Eventlog
Programmable Logic Functions eliminate relay logic or PLCs
CANopen / Modbus RTU
product specification

Automatic Transfer Switch (ATS) Controller - DTSC-200A

The DTSC-200A (Digital Transfer Switch Control) controls the transfer of electrical power from one source to another for hospitals, data centers, office buildings, manufacturing plants and similar where lights out is not an option. The extremely versatile DTSC-200A ATS controller is easily configured for a wide range of automatic transfer switch applications including Main-Gen, Gen-Gen or Main-Main systems using circuit breakers or latch-ing contactors. Source transfer can be performed as open, delayed, or closed transition with in-phase monitor-ing (synch check) that can be enabled for all transition types to ensure safe transfer. The closed transition over-lap time can be limited to less than 100ms for momentary, make-before-break transfers, or extended indefinitely for paralleling via discrete input. “Custom” features like transfer inhibit, source selection, load shed/restore, ele-vator pre-signal and engine test programs come standard.

Accessories

Configuration Software

Toolkit

configuration via Woodward’s standard Software Toolkit.

USB

USB configuration interface

USB port configuration interface. The PC/laptop side is seperated from the Woodward unit side through galvanic isolation.

Only needed for DTSC-50 and the old DTSC-200. The DTSC-200A works via a market standard USB-Mini connection. 

 

part number: 5417-1251

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