TF Series TF Series True OFF Delay Key features of the TF series include: Mountable in sockets or flush panel True power OFF-delay up to 10 minutes No external control switch necessary Available with reset inputs UL, c-ul Listed File No. E5599 Specifications TF-1 True power OFF-delay Time Range 0.05 seconds to 00 seconds Rated Voltage Contact Rating 100 to 40V AC, 50/0Hz 4V AC/DC 50V AC/0V DC, 5A (resistive load) TF- 50V AC/0V DC, A (resistive load) Contact Form SPDT DPDT Minimum Power Application Time 1 second AF0: 100 to 40V AC Voltage Tolerance AD4: 1. to.4vdc, 0.4 to.4vac Repeat Error ±0.%, ±10 msec Voltage Error ±0.%, ±10 msec Temperature Error ±0.%, ±10 msec Setting Error ±10% maximum Insulation Resistance 100MΩ minimum Between power and output terminals:,000v AC, 1 minute (SPDT) 1,500V AC, 1 minute (DPDT) Dielectric Strength Between contacts on different poles: 1,000V AC, 1 minute (DPDT) Between contacts of the same pole: 50V AC, 1 minute AF0:.VA (00V AC, 0Hz) Power Consumption AD4: 0.8W (DC), 1.VA (AC) Mechanical Life 0,000,000 operations minimum Electrical Life 100,000 operations minimum Vibration Resistance 100m/sec (approximate 10) Operating extremes: Shock Resistance 100 m/sec (approximate 10) Damage limits: 500 m/sec (approximate 50) Operating Temperature 10 to +50 C Storage Temperature 0 to +80 C Operating Humidity to 85% RH Weight (approximate) g 9g 1.An inrush current flows during the minimum power application time. AF0: approximate 0.A, AD4: approximate 0.A.TF does not read the preset time range shown on the knob after power is turned off. Note that minimizing the preset time, by turning the knob to zero, does not shorten the delay time after power is removed. TF Table of Contents Specifications - Part Number List - Timing Diagrams/Schematics - Instructions: Setting Timer -9 Instructions: Wiring Inputs -40 T Accessories -48 T Instructions -50 T Dimensions -5 Timing Diagrams Overview -4 -
TF Series Part Numbering List Part Numbers: TF Mode of Rated Voltage Code Time Range Output Contact Optional Input Complete Part Number 8-Pin 11-Pin Power OFF-delay AF0: 100 to 40VAC (50/0Hz) AD4: 4V AC/DC 0.05 seconds to 00 seconds 50V AC, 5A, 0V DC, 5A (resistive load) 50V AC, A, 0V DC, A (resistive load) SPDT DPDT None (8p) (11p) TF-1AF0 TF-1AD4 TF-AF0 TF-AD4 TF-1EAF0 TF-1EAD4 TF-EAF0 TF-EAD4 1. Optional reset input resets the contact to the OFF state before time out. Timing Diagrams/Schematics TF-1 Timing Diagrams (Contact Input) 4 5 1 8 TF-1 (8-pin) (+) (Transistor Input) 4 5 1 8 SPDT Output, with Input (+) (Contact Input) 4 5 TF-1E (11-pin) 8 9 10 1 11 (+) (Transistor Input) 4 5 8 9 10 1 11 (+) Item Terminal No. Power (Power) In put (ON or L) - (8p) -10 (11p) 1-4 (8p) - (11p) Contact 5-8 (8p) (NC) 1-4 (11p) (NO) -8 (8p) 1- (11p) Indicator Set Time Tr T Ta Ts T T = Set Time Ta = Shorter than Set Time Ts = 1 Second Tr = Minimum Power Application Time TF-1: 1 Second. For time ranges, see page -9.. For sockets and accessory part numbers, see page -48. 4. When power is applied, the NO output contact closes. When power is removed, the timing period begins. When time has elapsed, the NO contact opens. 5. For the timing diagram overview, see page -4. -
TF Series TF- Timing Diagrams TF- (8-pin) DPDT Output (Contact Input) TF-E (11-pin) (Transistor Input) 4 5 1 8 (+) 5 4 8 9 10 1 11 (+) 5 4 8 9 10 1 11 (+) 8-Pin Type Item Terminal No. Power (Power) - 1-4 (NC) 5-8 Contact (NO) 1- -8 T = Set Time Tr = Minimum Power Application Time: 1 Second Indicator 11-Pin Type Set Time Item Terminal No. T Tr T Power (Power) In put (ON or L) -10 - (11p) Contact 1-4 (NC) 8-11 (NO) 1-9-11 Indicator T = Set Time Ta = Shorter than Set Time Ts = 1 Second Tr = Minimum Power Application Time: 1 Second Set Time Tr T Ta Ts T When power is applied, the NO contact closes. When power is removed, the timing period begins. When time has elapsed, the NO contact opens. Optional reset input will return contacts to original state before time elapses. -8
TF Series Instructions: Setting TF Indicator ➂ Setting Knob Steps 1. Select a time range that contains the desired period of time. Desired Base Time Ranges ➀ Dial Selector 0-1, 0-, 0-, 0-18, 0-0 ➀ Dial Selector 0.05s to 1s 0 to 1 0.05s to s 0 to 0.05s to s 0 to 0.1s to 10s 0 to 1 0.s to 0 0 to 0.s to 0 0 to 1.8s to 180s 0 to 18 s to 00s 0 to 0. The set time is selected by turning the ➂ Setting Knob. Selection ➁ Time Range Selector 1S 10S Remarks Time range can be selected from 1S and 10S using a flat screwdriver and five different dials of 0 to 1, 0 to, 0 to, 0 to 18, and 0 to 0 are displayed in the six windows by turning the Dial Selector, allowing for selecting the best suited scale. Note that the switch does not turn infinitely. Setting Examples: ➁ Time Range Selector 1S, 10S 1) When the Setting Knob ➂ is set at.5, with Dial Selector ➀ 0 to and Time Range Selector ➁ 1S selected, then the set time is.5 seconds. ) When the Setting Knob ➂ is set at 5.0, with Dial Selector ➀ 0 to 0 and Time Range Selector ➁ 10S selected, then the set time is 500 seconds. -9
T Series Accessories Accessories: T Series Mounting Accessories Part Numbers: /Surface Mount Sockets and Hold-Down Springs Mount Socket Applicable Hold-Down Springs Style Appearance Use with Part No. Appearance Part No. 8-Pin Screw Terminal (dual tier) TA-1,, (8-pin) TD-1,, (8-pin) TF-1, (8-pin) TW (8-pin) TS SRP-05 11-Pin Screw Terminal (dual tier) 8-Pin Fingersafe Socket TA-1,, (11-pin) TA-4, 5, TD-1,, (11-pin) TD-4, 8 TF-1, (11-pin) TW (11-pin) TA-1,, (8-pin) TD-1,, (8-pin) TF-1, (8-pin) TW (8-pin) TS SRP-05 SRP-05C SFA-0 11-Pin Fingersafe Socket 8-Pin Screw Terminal TA-1,, (11-pin) TA-4, 5, TD-1,, (11-pin) TD-4, 8 TF-1, (11-pin) TW (11-pin) TA-1,, (8-pin) TD-1,, (8-pin) TF-1, (8-pin) TW (8-pin) TS SRP-05C SRP-0 11-Pin Screw Terminal TA-1,, (11-pin) TA-4, 5, TD-1,, (11-pin) TD-4, 8 TF-1, (11-pin) TW (11-pin) SRP-0 SFA-0 DIN Mounting Rail Length 1000mm BNDN1000 Installation of Hold-Down Springs Mount Socket Panel Mount Socket Insert the springs into the outer slots with the projections facing inside. Insert the springs into the slots. Hold-down Spring SFA-40 Insert Socket SRP-0 Hold-down Spring (sold separately) SFA-0 (use two springs) Socket SRP-05 Hold-down Spring (sold separately) SFA-0 (use two springs) 8-pin Socket SRP-511-48
T Series Accessories Panel Mounting Accessories Part Numbers: Panel Mount Sockets and Hold-Down Springs Panel Mount Socket Applicable HD Springs Style Appearance Use with Part No. Appearance Part No. 8-Pin Solder Terminal TA- (8-pin) TD- (8-pin) TW- (8-pin) TF- (8-pin) TS SRP-51 SFA-40 11-Pin Solder Terminal TA- (11-pin) TD- (11-pin) TW- (11-pin) TF- (11-pin) SRP-51 1. For information on installing the hold-down springs, see page -48. Part Numbers: Flush Panel Mount Adapter and Sockets that use an Adapter Accessory Description Appearance Use with Part No. Panel Mount Adapter Adaptor for flush panel mounting T timers All T timers RTB-01 8-pin screw terminal All 8-pin timers SRP-M08 Sockets for use with Panel Mount Adapter 11-pin screw terminal (Shown: SRP-M08 for Wiring Socket All 11-pin timers SRP-M11 Adapter) 8-pin solder terminal All 8-pin timers SRP-S08 11-pin solder terminal All 11-pin timers SRP-S11. No hold down springs are available for flush panel mounting. -49
T Series Dimensions Dimensions: T Series.0 5. 0.0 N40.0 NOTE: TW series are UL Listed when used in combination with following IDEC's sockets: TW-A11, A: SRP-0* pin type socket. TW-A11E, A: SRP-05* pin type socket. (*-May be followed by A,B,C or U) The socket to be used with these timers are rated: -Conductor Temperature Rating 0ºC min. -Use 14AW max.(mm max.) Copper conductors only -Terminal Torque 1.0 to 1. N-m Unit: mm Analog T Timer, 8-Pin with SRP-0 Analog Setting Type (When using ) When using BAA/BAP: 99 maximum 95 maximum Analog T Timer, 11-Pin with SRP-0 Analog Setting Type (When using ) When using BAA/BAP: 99 maximum 95 maximum 40 1.5" (40mm) 1.404" (mm) 8 4. 1 Digital T Timer, 8-Pin with SRP-0 0.09".5" (4.mm) Holddown Spring (SFA-0) 18 When Mounting on BNDN:.59" (9mm) Maximum.4" (88mm) Maximum HD Spring SFA-0 0.50" 1. 1. 0.0" (18mm) 0.858" (mm) 0 1 1." (1.mm) 0.0" (1.mm).4" (0mm) 0.09" 40 1.5" (40mm) 1.404" (mm) 8 4. 1 0.09".5" (4.mm) Holddown spring (SFA-0) Digital T Timer, 11-Pin with SRP-0 18 1. When Mounting on BNDN:.59" (9mm) Maximum.4" (88mm) Maximum HD Spring SFA-0 0.50" 1. 0 1 0.0" (18mm) 0.858" (mm) 1." (1.mm) 0.0" (1.mm).4" (0 mm) 0.09" Analog T Timer, 11-Pin with SRP-05 Digital T Timer, 11-Pin with SRP-05 Analog Setting Type 40 (When using ) BAA or BAP: 105.5 maximum 101.5 maximum ø 5 (BAA/BAP/BADA) 1.5" (40mm) When Mounting on BNDN:.84" (98.5mm) Maximum.8" (94.5mm) Maximum 1.05" 1.9" (mm) (mm) BNDN.0" (5mm) 8 4. 1 Hold-down Spring (SFA-0) 1.5 0 8.5 1.404" (mm) 0.09".4" (4.mm) 0.50" 0.44" (1.5mm) 0.11" (mm) 0.8" 1.11" (8.5mm) (0mm) HD Spring SFA-0-5
T Series Dimensions Panel Mount Adapter Analog T Timer, 8-Pin and 11-Pin with SRP-S08 or SRP-S11 98 maximum Panel Thickness 0.8 to 5mm Digital T Timer, 8-Pin and 11-Pin with SRP-S08 or SRP-S11.8" (98mm) Maximum Panel Mount Adapter Panel Thickness: 0.0" to 0." (0.8 to 5mm) 48 1. 4.5 1.8" (48mm) 0.0" 1." (1.mm) (4.5mm 48 11 1. Back Wiring Socket 1.8" (48mm) 0.1" (mm).9" (1.mm) Wiring Socket Adapter Mounting Hole Layout 48N-- Single Mounting Close Mounting Analog and Digital T Timer, 8-Pin with SRP-M08 8-M.5 Terminal Screw Panel Thickness 0.8 to 5mm 44. 44. 0.4 4 5 1 8.5 max. 5. min..9 max. ø. min. 80.5 9.8 Analog and Digital T Timer, 11-Pin with SRP-M11 11-M.5 Teminal Screws 1. 4 1 11 5 4 8 9 10.5 max. 5.8 min..9 max. ø. min. 9 0.5 8.5 4-5
eneral Instructions eneral Instructions for All Timer Series Load Current With inductive, capacitive, and incandescent lamp loads, inrush current more than 10 times the rated current may cause welded contacts and other undesired effects. The inrush current and steady-state current must be taken into consideration when specifying a timer. Contact Protection Switching an inductive load generates a counter-electromotive force (back EMF) in the coil. The back EMF will cause arcing, which may shorten the contact life and cause imperfect contact. Application of a protection circuit is recommended to safeguard the contacts. Temperature and Humidity Use the timer within the operating temperature and operating humidity ranges and prevent freezing or condensation. After the timer has been stored below its operating temperature, leave the timer at room temperature for a sufficient period of time to allow it to return to operating temperatures before use. Environment Avoid contact between the timer and sulfurous or ammonia gases, organic solvents (alcohol, benzine, thinner, etc.), strong alkaline substances, or strong acids. Do not use the timer in an environment where such substances are prevalent. Do not allow water to run or splash on the timer. Time Setting The time range is calibrated at its maximum time scale; so it is desirable to use the timer at a setting as close to its maximum time scale as possible. For a more accurate time delay, adjust the control knob by measuring the operating time with a watch before application. Input Contacts Use mechanical contact switch or relay to supply power to the timer. When driving the timer with a solid-state output device (such as a two-wire proximity switch, photoelectric switch, or solid-state relay), malfunction may be caused by leakage current from the solid-state device. Since AC types comprise a capacitive load, the SSR dielectric strength should be two or more times the power voltage when switching the timer power using an SSR. enerally, it is desirable to use mechanical contacts whenever possible to apply power to a timer or its signal inputs. When using solid state devices, be cautious of inrushes and back-emf that may exceed the ratings on such devices. Some timers are specially designed so that signal inputs switch at a lower voltage than is used to power the timer (models designated as B" type). Vibration and Shock Excessive vibration or shocks can cause the output contacts to bounce, the timer should be used only within the operating extremes for vibration and shock resistance. In applications with significant vibration or shock, use of hold down springs or clips is recommended to secure a timer to its socket. Timing accuracies are calculated from the following formulas: Timing Accuracy Formulas Repeat Error Voltage Error = ± 1 x Maximum Measured Value Minimum Measured Value x 100% Maximum Scale Value = ± Tv - Tr x 100% Tr T v : Average of measured values at voltage V T r: Average of measured values at the rated voltage Temperature Error = ± Tt - T0 x 100% T0 T t : Average of measured values at C T 0 : Average of measured values at 0 C Setting Error = ± Average of Measured Values - Set Value x 100% Maximum Scale Value -8