TR-6512U

## **PROGRAMMABLE  |  MULTI-RANGE REPEAT CYCLE & DELAYED INTERVAL TR-6 Series Time Ranger[tm]** 

|**PROGRAMMABLE  |  MULTI-RANGE**<br>**REPEAT CYCLE**|**PROGRAMMABLE  |  MULTI-RANGE**<br>**REPEAT CYCLE& DELAYED INTERVAL**<br>**TR-6 Series Time Ranger[tm]**<br>The TR-6 Series offers the fl exible programmability of a multi-range time delay|
|---|---|
||The TR-6 Series offers the fl exible programmability of a multi-range time delay|
|Lal<br>ge<br>MAGROMATIC|relay together with a universal input voltage.  These products provide an easy<br>method to select one of 16 time ranges between 0.05 seconds and 100 hours<br>using a rotary switch.  The actual time delay is then set by using the potentiometer<br>to adjust within the selected time range.|
|Each unit has 16 timing ranges<br>built-in covering 0.05 seconds-100<br>hours<br>Selecting a range is easy using a<br>rotary switch (no math is required<br>or DIP switches to set)<br>Independently selectable &<br>adjustable ON & OFF times<br>Universal input voltage: 24-240V<br>AC & 12-125V DC<br>Uses industry-standard 8 or 11<br>pin octal sockets<br>10A DPDT output contacts can<br>handle most pilot duty & fractional<br>HP loads<br>ty<br>Bey as<br>Vs Ls~~_~~<br>\<br>Als<br>CE|*<br>These units have independently selectable & adjustable ON & OFF times.  See<br>**_www.macromatic.com/onoff_** for more information.<br>**INPUT**<br>**VOLTAGE**<br>**CATALOG**<br>**WIRING/**<br>**FUNCTION**<br>**50/60Hz.**<br>**NUMBER**<br>**SOCKET**<br>**REPEAT CYCLE***<br>24-240V AC &<br>TR-6312U<br>(OFF Time First Followed<br>12-125V DC<br>8 PIN OCTAL<br>By ON Time<br>**70169-D**<br>and Repeating)<br>**REPEAT CYCLE***<br>24-240V AC &<br>TR-6512U<br>(ON Time First Followed<br>12-125V DC<br>By OFF Time<br>and Repeating)<br>**DELAYED INTERVAL***<br>24-240V AC &<br>TR-6612U<br>(OFF Time Followed by<br>12-125V DC<br>**DIAGRAM 1**<br>ON Time Followed by OFF<br>State Until Reset)<br>11 PIN OCTAL<br>**DELAYED INTERVAL***<br>24-240V AC &<br>TR-6652U<br>**70170-D**<br>Control Switch Trigger<br>12-125V DC<br>(OFF Time Followed by<br>ON Time Followed by OFF<br>State Until Reset)<br>**DIAGRAM 212**<br>~~_ a~~ara EN2<br>a<br>i 45 ig<br>|<br>\@,<br>i af<br>"<br>~~FFL~~7.-<br>TRIGGER<br>r<br>af © ie hi<br>2 167, @ 20) 4<br>@<br>\i il)<br>@<br>wot,<br>ow<br>Vv|



-  Selecting a range is easy using a rotary switch (no math is required or DIP switches to set) 

-  Independently selectable & adjustable ON & OFF times 

-  Universal input voltage: 24-240V AC & 12-125V DC 

-  Uses industry-standard 8 or 11 pin octal sockets 

-  10A DPDT output contacts can handle most pilot duty & fractional HP loads 

 See “Defi nitions of Timing Functions”. 

## **Timing Ranges** 

Select one of the 16 built-in time ranges by setting the rotary switch per a chart on the unit (see below) and then adjust within that range using the knob on top. 

## **800.238.7474 www.macromatic.com sales@macromatic.com** 

|**Dial Setting     Timin**|**Timing Range**|
|---|---|
|A<br>B<br>C<br>D<br>E<br>F<br>G<br>H<br>I<br>J<br>K<br>L<br>M<br>N<br>O<br>P|0.05 - 0.5 Sec.<br>0.1 - 1 Sec.<br>0.5 - 5 Sec.<br>1 - 10 Sec.<br>3 - 30 Sec.<br>6 - 60 Sec.<br>0.2 - 2 Min.<br>0.5 - 5 Min.<br>1 - 10 Min.<br>3 - 30 Min.<br>6 - 60 Min.<br>0.2 - 2 Hr.<br>0.5 - 5 Hr.<br>1 - 10 Hr.<br>2.4 - 24 Hr.<br>10 - 100 Hr.|



**Sockets & Accessories available** 

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## **PROGRAMMABLE  |  MULTI-RANGE** 

## **TR-6 Series Time Ranger[tm]** 

## **Application Data** 

## **Voltage Tolerance:** 

AC Operation:   20.4 – 264V at 50/60 Hz DC Operation:   10.2 – 137.5V 

## **Load (Burden):** 

Maximum of 3 VA for all voltages 

## **Setting Accuracy:** 

Maximum Setting (Adjustable): +5%, -0% Minimum Setting (Adjustable): +0%, -50% 

**Repeat Accuracy** (constant voltage and temperature) **:** +0.1% or +50ms, whichever is greater 

## **Reset Time:** 

Functions Triggered with Input Voltage: 0.1 Seconds Functions Triggered with Control Switch: 0.04 Seconds 

## **Start-up Time:** 

(Time from when power is applied until unit is timing) 0.05 Seconds 

## **Maintain Function Time:** 

(Time unit continues to operate after power is removed) 0.01 Seconds 

## **Triggering Off Delay, Single Shot or Watchdog Units:** 

Timing sequence must be initiated only after input voltage is applied to unit.  Minimum required trigger switch closure time is 0.1 seconds. 

## **Compatibility:** 

Using a solid state switch to initiate the time sequence is acceptable. See _**www.macromatic.com/leakage**_ or contact Macromatic for information regarding leakage current limits and other solid state design considerations. 

## **Output Contacts:** 

DPDT 10A @ 240V AC/30V DC, 1/2HP @ 120/240V AC (N.O.), 1/3HP @ 120/240V AC (N.C.) B300 & R300 (N.O.); AC15 & DC13 

## **Life:** 

Mechanical: 10,000,000 operations Full Load: 100,000 operations 

> **Approvals:** AL is CE File #E109466 C US Low Voltage & EMC Directives with Appropriate EN60947-1, EN60947-5-1 

## **Temperature:** 

Operating: -28[o] to 65[o] C (-18[o] to 150[o] F) Storage: -40[o] to 85[o] C (-40[o] to 185[o] F) 

## **Dimensions** 

TR-602, TR-605, TR608, TR609, TR-613, TR-615, TR-616, TR-617, TR-618 & TR-619 

## TR-631-TR-651, TR-661 & TR-665 

All Dimensions in Inches (Millimeters) 

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## **DEFINITION OF TIMING FUNCTIONS** 

Understanding the differences between all the functions available in time delay relays can sometimes be a daunting task.  To begin with, time delay relays are simply control relays with a time delay built in.  Their purpose is to control an event based on time. 

Typically, time delay relays are initiated or triggered by one of two methods, depending on the function: 

-  application of input voltage 

-  application of a trigger 

These triggers can be one of two signals: a control switch (dry contact), i.e., limit switch, push button, fl oat switch, etc., or voltage (commonly known as a power trigger). 

## **CAUTION: any time delay relay that is designed to be initiated with a dry contact control switch trigger could be damaged if voltage is applied to the trigger switch terminals.  Only products that have a “power trigger” should be used with voltage as the trigger.** 

To help understand, some defi nitions are important: 

- Input Voltage - control voltage applied to the input terminals.  Depending on the function, input voltage will either initiate the unit or make it ready to initiate when a trigger is applied. 

- Trigger- on certain timing functions, a trigger is used to initiate the unit after input voltage has been applied.  As noted above, this trigger can either be a control switch (dry contact switch) or a power trigger (voltage). 

- Output (Load) - every time delay relay has an output (either mechanical relay or solid state) that will open & close to control the load.  Note that the user must provide the voltage to power the load being switched by the output contacts of the time delay relay.  In all wiring diagrams, the output is shown in the normal de-energized position. 

Below and on the following pages are both written and visual descriptions on how the common timing functions operate.  A Timing Chart shows the relationship between Input Voltage, Trigger (if present) and Output.  If you cannot fi nd a product to fi t your requirements or have any questions, Macromatic’s Application Engineers offer technical information along with product selection and application assistance.  Call us at 800-238-7474 or e-mail us tech-help@macromatic.com. 

|**Function/Code**|**Operation**|**Timing Chart**|
|---|---|---|
|**ON DELAY**<br>Delay on<br>Operate<br>Delay on Make|Upon application of input voltage, the time delay (t)<br>begins.  At the end of the time delay (t), the output is<br>energized.  Input voltage must be removed to reset the<br>time delay relay & de-energize the output..|INPUT<br>VOLTAGE<br>OUTPUT|
|**INTERVAL ON**<br>Interval<br>B|Upon application of input voltage, the output is ener-<br>gized and the time delay (t) begins.  At the end of the<br>time delay (t), the output is de-energized.  Input voltage<br>must be removed to reset the time delay relay.|INPUT<br>VOLTAGE<br>OUTPUT|
|**OFF DELAY**<br>Delay on<br>Release<br>Delay on Break<br>Delay on<br>De-Ener**g**ization|Upon application of input voltage, the time delay relay<br>is ready to accept a trigger.  When the trigger is applied,<br>the output is energized.  Upon removal of the trigger, the<br>time delay (t) begins.  At the end of the time delay (t),<br>the output is de-energized.  Any application of the trigger<br>during the time delay will reset the time delay (t) and the<br>output remains energized.|INPUT<br>VOLTAGE<br>TRIGGER<br>a<br>Ey a<br>a<br>oureur |[| tt) |[tlt|
|**SINGLE SHOT**<br>One Shot<br>Momentary<br>Interval|Upon application of input voltage, the time delay relay<br>is ready to accept a trigger.  When the trigger is applied,<br>the output is energized and the time delay (t) begins.<br>During the time delay (t), the trigger is ignored.  At the<br>end of the time delay (t), the output is de-energized and<br>the time delay relay is ready to accept another trigger.|INPUT<br>VOLTAGE<br>TRIGGER<br>OUTPUT|



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## **DEFINITION OF TIMING FUNCTIONS** 

|**Function/Code**|**Operation**|**Timing Chart**|
|---|---|---|
|**FLASHER**<br>(Off First)|Upon application of input voltage, the time delay (t)<br>begins.  At the end of the time delay (t), the output is<br>energized and remains in that condition for the time<br>delay (t).  At the end of the time delay (t), the output<br>is de-energized and the sequence repeats until input<br>voltage is removed.|INPUT<br>VOLTAGE|
|**FLASHER**<br>(ON First)|Upon application of input voltage, the output is energized<br>and the time delay (t) begins.  At the end of the time<br>delay (t), the output is de-energized and remains in that<br>condition for the time delay (t).  At the end of the time de-<br>lay (t), the output is energized and the sequence repeats<br>until input voltage is removed.|INPUT<br>VOLTAGE<br>oureur |[En] t [len t ke|
|**ON/OFF DELAY**|Upon application of input voltage, the time delay relay<br>is ready to accept a trigger.  When the trigger is applied,<br>the time delay (t1) begins.  At the end of the time delay<br>(t1), the output is energized.  When the trigger is re-<br>moved, the output contacts remain energized for the time<br>delay (t2). At the end of the time delay (t2), the output is<br>de-energized & the time delay relay is ready to accept<br>another trigger.  If the trigger is removed during time<br>delay period (t1), the output will remain de-energized and<br>time delay (t1) will reset.  If the trigger is removed during<br>time delay period (t2), the output will remain energized<br>and the time delay (t2) will reset.|INPUT<br>VOLTAGE<br>TRIGGER<br>OUTPUT<br>* For TD-7 catalog numbers, t1 & t2 are the<br>same length of time.|
|**SINGLE SHOT**<br>**FALLING EDGE**|Upon application of input voltage, the time delay relay<br>is ready to accept a trigger.  When the trigger is applied,<br>the output remains de-energized.  Upon removal of the<br>trigger, the output is energized and the time delay (t)<br>begins.  At the end of the time delay (t), the output is<br>de-energized unless the trigger is removed and re-ap-<br>plied prior to time out (before time delay (t) elapses).<br>Continuous cycling of the trigger at a rate faster than the<br>time delay (t) will cause the output to remain energized<br>indefi nitely.|INPUT<br>VOLTAGE<br>TRIGGER<br>Po es|
|**WATCHDOG**<br>**Retriggerable**<br>**Single Shot**|Upon application of input voltage, the time delay relay<br>is ready to accept a trigger.  When the trigger is applied,<br>the output is energized and the time delay (t) begins.  At<br>the end of the time delay (t), the output is de-energized<br>unless the trigger is removed and re-applied prior to time<br>out (before time delay (t) elapses).  Continuous cycling<br>of the trigger at a rate faster than the time delay (t) will<br>cause the output to remain energized indefi nitely.|INPUT<br>VOLTAGE<br>TRIGGER<br>ss|
|**TRIGGERED**<br>**ON DELAY**|Upon application of input voltage, the time delay relay<br>is ready to accept a trigger.  When the trigger is applied,<br>the time delay (t) begins.  At the end of the time delay (t),<br>the output is energized and remains in that condition as<br>long as either the trigger is applied or the input voltage<br>remains.  If the trigger is removed during the time delay<br>(t), the output remains de-energized & the time delay (t)<br>is reset.|INPUT<br>VOLTAGE<br>TRIGGER<br>_|



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## **DEFINITION OF TIMING FUNCTIONS** 

|**Function/Code**|**Operation**|**Timing Chart**|
|---|---|---|
|**REPEAT CYCLE**<br>**(OFF 1st)**|Upon application of input voltage, the time delay (t1)<br>begins.  At the end of the time delay (t1), the output is<br>energized and remains in that condition for the time<br>delay (t2).  At the end of this time delay, the output is<br>de-energized and the sequence repeats until input volt-<br>age is removed.|INPUT<br>VOLTAGE<br>||<br>7|
|**REPEAT CYCLE**<br>**(ON 1st)**|Upon application of input voltage, the output is energized<br>and the time delay (t1) begins.  At the end of the time<br>delay (t1), the output is de-energized and remains in that<br>condition for the time delay (t2).  At the end of this time<br>delay, the output is energized and the sequence repeats<br>until input voltage is removed.|INPUT<br>VOLTAGE<br>|<br>|<br>| ||
|**DELAYED**<br>**INTERVAL**<br>**Single Cycle**|Upon application of input voltage, the time delay (t1)<br>begins.  At the end of the time delay (t1), the output is<br>energized and remains in that condition for the time<br>delay (t2).  At the end of this time delay (t2), the output<br>is de-energized.  Input voltage must be removed to reset<br>the time delay relay.|INPUT<br>VOLTAGE<br>| |<br>=)|
|**TRIGGERED**<br>**DELAYED**<br>**INTERVAL**|Upon application of input voltage, the time delay relay<br>is ready to accept a trigger.  When the trigger is applied,<br>the time delay (t1) begins.  At the end of the time delay<br>(t1), the output is energized and remains in that condition<br>for the time delay (t2). At the end of the time delay (t2),<br>the output is de-energized & the relay is ready to accept<br>another trigger.  During both time delay (t1) & time delay<br>(t2), the trigger is ignored.|INPUT<br>VOLTAGE<br>TRIGGER<br>{<br>ee|<br>oureur | |ti[ @2 | (tif 2”|
|**TRUE OFF**<br>**DELAY**<br>a|Upon application of input voltage, the output is ener-<br>gized.  When the input voltage is removed, the time<br>delay (t) begins.  At the end of the time delay (t), the<br>output is de-energized.  Input voltage must be applied<br>for a minimum of 0.1 seconds to assure proper opera-<br>tion.  Any application of the input voltage during the time<br>delay (t) will reset the time delay.  No external trigger is<br>required.<br>a|INPUT = —<br>VOLTAGE<br>—|
|**ON DELAY/**<br>**TRUE OFF**<br>**DELAY**|Upon application of input voltage, the time delay (t1)<br>begins.  At the end of the time delay (t1), the output is<br>energized.  When the input voltage is removed, the out-<br>put remains energized for the time delay (t2). At the end<br>of the time delay (t2), the output is de-energized.  Input<br>voltage must be applied for a minimum of 0.1 seconds<br>to assure proper operation.  Any application of the input<br>voltage during the time delay (t2) will keep the output<br>energized & reset the time delay (t2). No external trigger<br>is required.|INPUT<br>VOLTAGE<br>|)<br>| | |<br>ourput<br>ea| t1ay|
|**SINGLE**<br>**SHOT-FLASHER**|Upon application of input voltage, the time delay relay<br>is ready to accept a trigger.  When the trigger is applied,<br>the time delay (t1) begins and the output is energized for<br>the time delay (t2).  At the end of this time delay (t2), the<br>output is de-energized and remains in that condition for<br>the time delay (t2).  At the end of the time delay (t2), the<br>output is energized and the sequence repeats until time<br>delay (t1) is completed.  During the time delay (t1), the<br>trigger is ignored.|INPUT<br>VOLTAGE<br>a<br>a |<br>||
|**ON DELAY-**<br>**FLASHER**|Upon application of input voltage, the time delay begins<br>(t1).  At the end of the time delay (t1), the output is<br>energized and remains in that condition for the time<br>delay (t2).  At the end of this time delay (t2), the output is<br>de-energized and remains in that condition for the time<br>delay (t2).  At the end of the time delay (t2), the output is<br>energized and the sequence repeats until input voltage<br>is removed.|INPUT<br>VOLTAGE<br>| |<br>**|**<br>OUTPUT<br>| t2 |<br>| t2 |<t2|



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