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TS2-I-24V-800S Datasheet, PDF (1/1 Pages) Panasonic Semiconductor – TS-RELAYS NEW PCB TIME DELAY RELAY TIME-ON OR TIME-OFF DELAY OR PULSE RELAY
TS
TS-RELAYS NEW PCB TIME DELAY RELAY
TIME-ON OR TIME-OFF DELAY
OR PULSE RELAY
Approx. 15 g
Housing material: CRASTIN SK-615 FR Polycarbonate
Basic grid 2.54 mm
PCB hole dia. ‡ 1.3 mm ± 0.1 mm
Characteristics
Contact arrangement
(NO = normally open, NC = normally
closed, CO = changeover)
Max. make/rated/break current
A
Voltage switching range
V
Power switching range
W (VA)
Contact material
Volumetric/contact resistance
mΩΩ
Operational life 1)
5 A, 1000 VA / 5 A, 100 W
switching ops.
4 A, 1000 VA / 0.1 A, 1 W
switching ops.
Voltage withstand: cont./cont.- control circuitry Veff
Insulation resistance: cont./cont.- control circuitry ΩΩ
Shock-, vibration resistance
g, g/Hz
Life of trimmer
Type of protection Potentiometer/Contacts
Storage temperature
°C
Permiss. ambient temp. at max. load
°C
Min. control pulse duration at rated voltage. ms
• The elegant solution to time delay problems.
• High repeat accuracy and reliability.
• Not susceptible to external disturbance.
• Increase in timing delay by using an external capacitor with time-off delay
device – o –.
• No auxiliary power supply required with time-off delay operation.
• No „first cycle effect“, with the time-on delay device. The first and following
operations are of the same duration.
Remarks
2NO2NC (2CO)/3NO1NC
(2NO1CO)/4NO
20 / 5 / 5
10-5-250
10-10-100 (1000)
AuAg10
30 / 10
See also the
6 ·104 / 3 · 105
105 / 2 · 108
S relay data sheet
750 / 1500
1013/ 1010
50, 20 / 1000
Independant of position
>100 operations
Typically 1000 ops.
dust tight / IP50
-20 / +85
-20 / +65
Consequently, time tol.: < 4% with
-i- devices 25 % with -0- devices
100
Operation
Operating characteristics
Type: – i – ”on“ delay
– b – pulse relay
Operating Current Type: – o – ”off“ delay
voltage consumpt.
V
mA
Operating Current
voltage consumpt.
V
mA
TS2-/TS3-/TS4 – i / – b – 5 V
4.0 – 9.0
40
TS2-/TS3-/TS4 – o – 5 V
4.0 – 9.0
31
TS2-/TS3-/TS4 – i / – b – 12 V 8.5 – 18.0 20
TS2-/TS3-/TS4 – o – 12 V
8.5 – 18.0 23
TS2-/TS3-/TS4 – i / – b – 24 V 17.0 – 30.0 11
TS2-/TS3-/TS4 – o – 24 V
18.0 – 28.0 23
Rated time: „on“ delay „i“ 0 s +) 10 s 100 s 800 s Rated time: „off“ delay „o“
0 s +) 10 s 100 s
Minimum timing range [s]
Minimum timing range [s]
typical at rated voltage
1-1000 0.3-10 1-100 8-800 typical at rated voltage
0.3-100 0.3-10 1-100
Time tolerance at Urated ± 10% < 1%
Time tolerance at Urated ± 10%
–
pulse relay „b“
pulse frequency 0.04 … 5 Hz* Time delay increase with Cext per µF** –
approx 20%
1.5s 4.7 s
+ The trimmer is omitted on the -i/-o- 0s device.
This must be replaced by an external potentiometer. The
time delay thus achievable is 20s per 100 kΩ Ω with the
-i- devices and approx 20s per 1 MΩΩ with the -o- devices.
The minimum time delays are 1s (with -i-) and 0.3 s (with -o-).
* With the -o- 0s device, the pulse frequency is 5 Hz. max.,
and is inversely proportional to Rext (e.g. at 12 kΩ Ω the pulse
frequency is 1 Hz).
** Connect Cext between pins 12 and 13!
Connection diagrams (bottom view) Warning! No reverse battery protection
Warning! pins 1 and 6 may not be connected.
Pins 7 and 12 are negative and connected internally
TS2–i, –o– or –b
– 5, 12, 24 V
–0s
TS3–i, –o– or –b
– 5, 12, 24 V
–0s
TS4–i, –o– or –b
– 5, 12, 24 V
–0s
TS2–i, –o– or –b TS3–i, –o– or –b TS4–i, –o– or –b
– 5, 12, 24 V
– 5, 12, 24 V
– 5, 12, 24 V
– 10 s or – 100 s – 10 s or – 100 s – 10 s or – 100 s
– i – 800 s, – b – 25 s – i – 800 s, – b – 25 s – i – 800 s, – b – 25 s
Ordering example
en_ds_61708_0000_300506D
Note:
Excitation voltage ripple should be maintained below 5% by use of appropriate smoothing.
Strong external magnetic fields influence relay data.
1) Data concerning operational life is based on resistive loads and ambient temperature of 20-30°C.
TR-W Wiping function on request
With surge voltages
(1.2/50µsec) over DC 500V
TS-i. b. w relays may not
operate as intended.
Please initialise relays required state whenever power is turned on. The
statements for latching relays in our General Application Guidelines are
applicable.