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| TC1L RELAY SPECIFICATIONS |
| All
data are at 20°C ambient temperature unless otherwise noted. |
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| PCB Miniature High Current Latching relay. |
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| Covers
a broad range |
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| of
automotive applications. |
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| The
relays are lead free / RoHS compliant. |
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| Please
observe the special notes at the last page of this data sheet. |
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TC1L |
HTC1L |
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| Available Standard Types |
| TCL1 |
Standard Type |
wave solderable |
85°C |
max. ambient temperature |
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| HTCL1 |
High Temperature |
wave solderable |
125°C |
max. ambient temperature |
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| Special Features available: ( see nomenclature page) |
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| Available Coil Options |
| Contact versions |
Coil Resistance |
Nominal Power |
Polarity at Pin 6 |
Set Voltage |
Reset Voltage |
| Form
C contact |
75 Ω
each |
1.920
W |
plus |
6.5 V |
6.5
V |
| Form U contact |
75 Ω
each |
1.920
W |
minus |
7.2 V |
7.2
V |
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±10% |
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| ITEM |
SPECIFICATION |
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Contact Arrangement
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1 Form C / 1Form U (double-make contact)
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Contact Material
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AgSnO2 Alloy
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Contact Resistance
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Typical 3 mΩ (max 50mΩ at 6 VDC
1A)
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Contact Rated Load
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25A at
14VDC Motor load (Locked Rotor)
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Max. Switching Current/ Voltage
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30A at
16VDC
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Max. Continuous Current at 20 °C
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30A at
14VDC for 1hour
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Min. Switching Current (recommended)
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1A at 12VDC
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Dielectric Strength
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500VAC
for 1 minute (between coil and contact)
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500VAC for 1 minute (between open contacts)
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Insulation Resistance
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Min 100MΩ (at 500VDC)
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SET / RESET pulse
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Min 10ms
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Max 1
s
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Set Time
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Typical 1.5 ms( 12VDC/20℃,with pulse
> 10 ms)
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Reset Time
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Shock
resistance
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False Operation
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Min 98m/s2 ( 10G) :Shock wave
11ms
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Endurance
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Min 980m/s2 (100G) :Shock wave
6ms
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Vibration resistance
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False Operation
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Min 43m/s2
( 4.4G) at 10 to 500Hz
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Endurance
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Mechanical Life (no load)
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Min 10×106 Operations(300 cycles/minute)
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Electrical Life at rated load
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Min 1.0×105 Operations (2 sec. ON/ 2 sec. OFF)
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Ambient Temperature range
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-40°C to 85°C (125°C max. for H-type) ,Max
85%RH
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Weight
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Approx. 10 g
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| TECHNICAL REFERENCE DATA FOR TCL1-75 |
| Contact Resistance of the N/O contact |
Contact Resistance of the N/C contact |
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| Set Time with 12 V |
Reset Time with 12V |
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| Set/Reset Voltage Range |
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Please
note, that this diagram
shows the SET/ RESET Voltage range.
for coil at ambient temperature
The Maximum Voltage can be always 16 V
since it is required, that
the
latching relays are
energized by impulses only.
Not valid for continuous condition. |
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| TECHNICAL REFERENCE DATA FOR TCL1-75 |
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Coil temperature rise
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| Over current
limit |
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Set and Reset Time |
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Contact
voltage drop over NO contact of the TCL1-75
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increasing current |
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decreasing current |
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This
diagram shows
the voltage drop over current
for the NO contact during
the increase of the current
and during the decrease |
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| External Dimensions
/ Wiring Diagram / PCB Pin Layout |
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Fig 1 : External Dimensions |
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| Packaging specification |
| Standard Tube Packaging |
40 relays
per tube, 20 tubes per box (800 relays per box) |
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| Notes: |
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| The
benefit of a latching relay lies in the fact that it can be operated
with short pulses so that the heat of the coil which normally is
the highest contributor is not recognizable any more |
| Therefore a latching relay can carry higher currents than a
neutral relay. |
| Latching
relays need to be turned on by one pulse at one winding and turned
off by a puls in the opposite direction or by another pulse to a
second winding. |
| A
latching relay is recognizable
by at least 3 coil pins instead of 2 of a neutral relays |
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| Since
the 2 windings of the coil of the TCL are not symmetrical you cannot
swap the function from one winding to the other. The coils which
require the pin 6 to be "minus" are marked with the letter
"H" at the end. |
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| A latching relay should be operated by pulses with
a width between 10 ms and 1000ms. |
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| If the pulse is too short, the relay
may not operate. If the voltage is applied too long especially at
high ambient temperature the coil might overheat quickly. |
| Apply a voltage to the coil in the polarity specified
by the internal connection diagram of the relay. |
| Do not apply voltage at the set and reset windings
at the same time. |
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| A latching relay is factory-set to the reset state
for shipment. |
| However, it may be SET while being transported due
to vibration or shock. |
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| Therefore it is recommendable to reset the relay
before the PCB is tested. |
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| The spring of this relay might relax if you run
these relays in a SET condition through the reflow oven |
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| Taiko recommends to RESET the relays in a special
step before reflow soldering. |
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| For further
information, please contact Taiko device Techno. |
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| Disclaimer: |
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| The above information
is for information only and with no responsibility, not binding
and can be changed any time. |
| Taiko Device Techno cannot be held responsible
for typos, or misprints. |
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