NAIS TQ2-24V

TESTING
LOW PROFILE
2 FORM C RELAY
TQ-RELAYS
FEATURES
9
.354
26.7
1.051
5+0.4
–0.2
.197+.016
–.008
9
.354
14
.551
5+0.4
–0.2
.197+.016
–.008
• High sensitivity:
2 Form C: 140 mW power consumption (single side stable type)
4 Form C: 280 mW power consumption (single side stable type)
• Surge voltage withstand: 1500 V FCC Part 68
• Sealed construction allows automatic washing
• Self-clinching terminal also available
• M.B.B. contact types available
mm inch
SPECIFICATIONS
Contact
Characteristics
Arrangement
Initial contact resistance, max.
(By voltage drop 6 V DC 1A)
Contact material
Nominal switching capacity
(resistive load)
Max. switching power
(resistive load)
Rating
Max. switching voltage
Max. switching current
Min. switching capacity ❇1
Single side stable
Nominal
operating
1 coil latching
power
2 coil latching
Mechanical (at 180 cpm)
Expected
1 A 30 V DC
life (min. Electrical
(at 20 cpm) resistive
opera(1 A 30 V DC 0.5 A 125 V AC
tions)
resistive)
resistive
Standard
(B.B.M) type
2 Form C
4 Form C
M.B.B.type
2 Form D
Initial insulation resistance*1
50 mΩ
Between open
contacts
Gold-clad silver
1 A 30 V DC
1 A 30 V
0.5 A 125 V AC
DC
30 W, 62.5 V A
30 W
110 V DC, 125 V AC
110 V DC
1A
10 µA 10 mV DC
140 mW
(3 to 12 V DC)
280 mW
200 mW
(3 to 24 V DC)
200 mW
400 mW
(24 V DC)
(48 V DC)
300 mW
(48 V DC)
100 mW
(3 to 12 V DC)
200 mW
—
150 mW
(24 V DC)
200 mW
(3 to 12 V DC)
400 mW
—
300 mW
(24 V DC)
108
107
2×105
105
105
—
Note:
Initial
breakdown
voltage
Between contact
and coil
Between contact
sets
FCC surge voltage between open
contacts
Operate time [Set time]*3
(at 20°C)
Release time [Reset time]*4
(at 20°C)
M.B.B. time*8
Temperature rise*2 (at 20°C)
Functional*5
Shock resistance
Destructive*6
Vibration
resistance
Functional*7
Destructive
Conditions for
Ambient
operation, transtemperature
port and storage*9
(Not freezing and
condensing at low Humidity
temperature)
2 Form C:
Unit weight
4 Form C:
Standard
M.B.B.type
(B.B.M) type
Min. 1,000 MΩ (at 500 V DC)
750 Vrms for 1 min. 300 Vrms for 1 min.
(Detection current: (Detection current:
10 mA)
10 mA)
1,000 Vrms for 1 min.
(Detection current: 10 mA)
1,000 Vrms for 1 min.
(Detection current: 10 mA)
1,500 V
Max. 3 ms (Approx. 2 ms)
[Max. 3 ms (Approx. 2 ms)]
Max. 3 ms (Approx. 1 ms)
[Max. 3 ms (Approx. 2 ms)]
—
Min. 10 µs.
Max. 50°C
Min. 490 m/s2 {50G}
Min. 980 m/s2 {100G}
176.4 m/s2 {18G}, 10 to 55 Hz
at double amplitude of 3 mm
294 m/s2 {30G}, 10 to 55 Hz
at double amplitude of 5 mm
–40°C to +50°C
–40°C to +70°C
–40°F to +158°F
–40°F to +122°F
5 to 85% R.H.
Approx. 1.5 g .053 oz
Approx. 3 g .106 oz.
—
❇1This value can change due to the switching frequency, environmental conditions,
and desired reliability level, therefore it is recommended to check this with the actual load.
Remarks
* Specifications will vary with foreign standards certification ratings.
*1 Measurement at same location as "Initial breakdown voltage" section.
*2 By resistive method, nominal voltage applied to the coil; contact carrying current:
1 A.
*3 Nominal voltage applied to the coil, excluding contact bounce time.
*4 Nominal voltage applied to the coil, excluding contact bounce time without diode.
*5 Half-wave pulse of sine wave: 11 ms; detection time: 10 µs.
*6 Half-wave pulse of sine wave: 6 ms.
*7 Detection time: 10 µs.
*8 M.B.B. time:
Min. 10 µs
Measuring
condition
500 Ω
5 V DC
*9 Refer to 4. Conditions for operation, transport and storage mentioned in Cautions
for use (Page 178).
133
TQ
ORDERING INFORMATION
EX. TQ
Contact arrangement
2: 2 Form C
4: 4 Form C
2
H
L2
2M
Operating function
Terninal shape
3V
MBB function
Nil: Standard PC board
Nil: Single side stable Nil: Standard
L: 1 coil latching
terminal
(B.B.M.) type
H: Self-clinching terminal L2: 2 coil latching
2M: 2M.B.B. type
Coil voltage (DC)
3, 4.5, 5, 6, 9,
12, 24, 48* V
*48 V coil type: Single side stable only
Notes: 1. AgPd stationary contact types available for high resistance against contact sticking.
When ordering, please add suffix “–3” like TQ2-12V-3.
2. M.B.B. contact types are available only for TQ2 type.
TYPES AND COIL DATA (at 20°C 68°F)
1. Standard (B.B.M.) type
2 Form C type
1. Single side stable
Part No.
Standard PC
board terminal
TQ2-3 V
TQ2-4.5 V
TQ2-5 V
TQ2-6 V
TQ2-9 V
TQ2-12 V
TQ2-24 V
TQ2-48 V
Nominal
operating
current,
mA (±10%)
46.7
31.1
28.1
23.3
15.5
11.7
8.3
6.25
Nominal
voltage,
V DC
Pick-up
voltage,
V DC (max.)
Drop-out
voltage,
V DC (min.)
3
4.5
5
6
9
12
24
48
2.25
3.38
3.75
4.5
6.75
9
18
36
0.3
0.45
0.5
0.6
0.9
1.2
2.4
4.8
Self-clinching
terminal
Nominal
voltage,
V DC
Set voltage,
V DC (max.)
Reset voltage,
V DC (min.)
Nominal
operating
current,
mA (±10%)
Coil
resistance,
Ω (±10%)
TQ2H-L-3 V
TQ2H-L-4.5 V
TQ2H-L-5 V
TQ2H-L-6 V
TQ2H-L-9 V
TQ2H-L-12 V
TQ2H-L-24 V
3
4.5
5
6
9
12
24
2.25
3.38
3.75
4.5
6.75
9
18
2.25
3.38
3.75
4.5
6.75
9
18
33.3
22.2
20
16.7
11.1
8.3
6.3
90
202.5
250
360
810
1,440
3,840
Self-clinching
terminal
Nominal
voltage,
V DC
Set voltage,
V DC (max.)
Reset voltage,
V DC (min.)
TQ2H-L2-3 V
TQ2H-L2-4.5 V
TQ2H-L2-5 V
TQ2H-L2-6 V
TQ2H-L2-9 V
TQ2H-L2-12 V
TQ2H-L2-24 V
3
4.5
5
6
9
12
24
2.25
3.38
3.75
4.5
6.75
9
18
2.25
3.38
3.75
4.5
6.75
9
18
Self-clinching
terminal
TQ2H-3 V
TQ2H-4.5 V
TQ2H-5 V
TQ2H-6 V
TQ2H-9 V
TQ2H-12 V
TQ2H-24 V
TQ2H-48 V
Coil
resistance,
Ω (±10%)
64.3
144.6
178
257
579
1,028
2,880
7,680
Nominal
operating
power,
mW
140
140
140
140
140
140
200
300
Max.
allowable
voltage,
V DC
4.5
6.7
7.5
9
13.5
18
36
57.6
Nominal
operating
power,
mW
100
100
100
100
100
100
150
Max.
allowable
voltage,
V DC
4.5
6.7
7.5
9
13.5
18
36
Nominal
operating
power,
mW
200
200
200
200
200
200
300
Max.
allowable
voltage,
V DC
4.5
6.7
7.5
9
13.5
18
28.8
2. 1 Coil latching
Part No.
Standard PC
board terminal
TQ2-L-3 V
TQ2-L-4.5 V
TQ2-L-5 V
TQ2-L-6 V
TQ2-L-9 V
TQ2-L-12 V
TQ2-L-24 V
3. 2 Coil latching
Part No.
Standard PC
board terminal
TQ2-L2-3 V
TQ2-L2-4.5 V
TQ2-L2-5 V
TQ2-L2-6 V
TQ2-L2-9 V
TQ2-L2-12 V
TQ2-L2-24 V
Nominal
operating
current,
mA (±10%)
66.7
44.4
40
33.3
22.2
16.7
12.5
Coil
resistance,
Ω (±10%)
45
101.2
125
180
405
720
1,920
Notes: 1. Specified value of the pick-up, drop-out, set and reset voltage is with the condition of square wave coil pulse.
2. Standard packing: Tube: 50 pcs.; Case: 1,000 pcs.
3. In case of 5 V transistor drive circuit, it is recommend to use 4.5 V type relay.
4. AgPd stationary contact types available for high resistance against contact sticking. When ordering, please add suffix "–3" like TQ2-12V-3.
134
TQ
4 Form C type
1. Single side stable
Part No.
Standard PC
board terminal
Pick-up
voltage,
V DC (max.)
Drop-out
voltage,
V DC (min.)
3
4.5
5
6
9
12
24
48
2.25
3.38
3.75
4.5
6.75
9
18
36
0.3
0.45
0.5
0.6
0.9
1.2
2.4
4.8
Self-clinching
terminal
Nominal
voltage,
V DC
Set voltage,
V DC (max.)
Reset voltage,
V DC (min.)
TQ4H-L-3 V
TQ4H-L-4.5 V
TQ4H-L-5 V
TQ4H-L-6 V
TQ4H-L-9 V
TQ4H-L-12 V
TQ4H-L-24 V
3
4.5
5
6
9
12
24
2.25
3.38
3.75
4.5
6.75
9
18
2.25
3.38
3.75
4.5
6.75
9
18
Self-clinching
terminal
Nominal
voltage,
V DC
Set voltage,
V DC (max.)
Reset voltage,
V DC (min.)
Nominal
operating
current,
mA (±10%)
Coil
resistance,
Ω (±10%)
TQ4H-L2-3 V
TQ4H-L2-4.5 V
TQ4H-L2-5 V
TQ4H-L2-6 V
TQ4H-L2-9 V
TQ4H-L2-12 V
TQ4H-L2-24 V
3
4.5
5
6
9
12
24
2.25
3.38
3.75
4.5
6.75
9
18
2.25
3.38
3.75
4.5
6.75
9
18
133
88.9
80
66.6
44.4
33.3
16.7
22.5
50.6
62.5
90
202.5
360
1,440
Self-clinching
terminal
TQ4-3 V
TQ4-4.5 V
TQ4-5 V
TQ4-6 V
TQ4-9 V
TQ4-12 V
TQ4-24 V
TQ4-48 V
Nominal
operating current,
mA (±10%)
93.8
62.2
56.2
46.5
31.1
23.3
11.7
8.3
Nominal
voltage,
V DC
TQ4H-3 V
TQ4H-4.5 V
TQ4H-5 V
TQ4H-6 V
TQ4H-9 V
TQ4H-12 V
TQ4H-24 V
TQ4H-48 V
Coil
resistance,
Ω (±10%)
32
72.3
89
129
289
514
2,056
5,760
Nominal
operating
power,
mW
280
280
280
280
280
280
280
400
Max.
allowable
voltage,
V DC
4.5
6.7
7.5
9
13.5
18
36
57.6
Nominal
operating
power,
mW
200
200
200
200
200
200
200
Max.
allowable
voltage,
V DC
4.5
6.7
7.5
9
13.5
18
36
Nominal
operating
power,
mW
400
400
400
400
400
400
400
Max.
allowable
voltage,
V DC
4.5
6.7
7.5
9
13.5
18
36
2. 1 Coil latching
Part No.
Standard PC
board terminal
TQ4-L-3 V
TQ4-L-4.5 V
TQ4-L-5 V
TQ4-L-6 V
TQ4-L-9 V
TQ4-L-12 V
TQ4-L-24 V
Nominal
operating
current,
mA (±10%)
66.6
44.4
40
33.3
22.2
16.7
8.3
Coil
resistance,
Ω (±10%)
45
101.2
125
180
405
720
2,880
3. 2 Coil latching
Part No.
Standard PC
board terminal
TQ4-L2-3 V
TQ4-L2-4.5 V
TQ4-L2-5 V
TQ4-L2-6 V
TQ4-L2-9 V
TQ4-L2-12 V
TQ4-L2-24 V
Notes: 1. Specified value of the pick-up, drop-out, voltage is with the condition of square wave coil pulse.
2. Standard packing: Tube: 50 pcs.; Case: 1,000 pcs.
3. In case of 5 V transistor drive circuit, it is recommend to use 4.5 V type relay.
4. 1 coil latching and 2 coil latching types are also available by request. Please consult us for details.
5. AgPd stationary contact types available for high resistance against contact sticking. When ordering, please add suffix "–3" like TQ2-12V-3.
2. M.B.B. type
Single side stable
Standard PC
board terminal
Part No.
Self-clinching
terminal
Nominal
voltage,
V DC
Pick-up
voltage,
V DC (max.)
Drop-out
voltage,
V DC (min.)
Nominal
operating
current,
mA (±10%)
Coil
resistance,
Ω (±10%)
TQ2-2M-3 V
TQ2-2M-4.5 V
TQ2-2M-5 V
TQ2-2M-6 V
TQ2-2M-9 V
TQ2-2M-12 V
TQ2-2M-24 V
TQ2H-2M-3 V
TQ2H-2M-4.5 V
TQ2H-2M-5 V
TQ2H-2M-6 V
TQ2H-2M-9 V
TQ2H-2M-12 V
TQ2H-2M-24 V
3
4.5
5
6
9
12
24
2.4
3.6
4
4.8
7.2
9.6
19.2
0.3
0.45
0.5
0.6
0.9
1.2
2.4
66.7
44.4
40
33.3
22.2
16.7
8.3
45
101
125
180
405
720
2,880
Nominal
operating
power,
mW
200
200
200
200
200
200
200
Max.
allowable
voltage,
V DC
4.5
6.7
7.5
9
13.5
18
36
Notes: 1. Specified value of the pick-up, drop-out, set and reset voltage is with the condition of square wave coil pulse.
2. Standard packing: Tube: 50 pcs.; Case: 1,000 pcs.
3. In case of 5 V transistor drive circuit, it is recommend to use 4.5 V type relay.
4. AgPd stationary contact types available for high resistance against contact sticking. When ordering, please add suffix "–3" like TQ2-12V-3.
135
TQ
DIMENSIONS
mm inch
1) 2 Form C, 2 Form D
Standard PC board terminal
4.75
.187
5
.197
14
.551
PC board pattern (Copper-side view)
9
.354
10.16
.400
2.54
.100
10-1.0 dia.
10-.039 dia
+0.4
−0.2
+.016
−.008
2.54
.100 7.62
.300
3.5
.138
0.25
.010
2.54
.100
0.5
.020
0.25
.010
7.62
.300
Tolerance: ±0.1 ±.004
Schematic (Bottom view)
• Single side stable
• 1-coil latching
(Deenergized condition)
(Reset condition)
Self-clinching terminal
4.75
.187
14
.551
9
.354
5 +0.4
−0.2
.197 +.016
−.008
+
3.5
.138
0.25
.010
2.54
.100
0.5
.020
0.25
.010
7.62
.300
1
2
3
4
5
−
−
1
2
3
4
• 2-coil latching
(Reset condition)
5
1
8
7
6
10 9
Direction indication*
3
4
8
7
6
10 9
Direction indication*
5
−
−
+
+
10 9
2
+
8
7
6
Direction indication*
*Orientation stripe typical-located on top of relay
General tolerance: ±0.3 ±.012
2) 4 Form C
Standard PC board terminal
26.7
1.051
4.75
.187
5
.197
PC board pattern (Copper-side view)
9
.354
+0.4
−0.2
+.016
−.008
22.86
.900
2.54
.100
5.08
.200
16-1.0 dia.
16-.039 dia
3.5
.138
0.25
.010
5.08
.200
0.5
.020
2.54
.100
7.62
.300
2.54
.100 7.62
.300
0.25
.010
Tolerance: ±0.1 ±.004
Self-clinching terminal
26.7
1.051
4.75
.187
Schematic (Bottom view)
• Single side stable
• 1-coil latching
(Deenergized condition)
(Reset condition)
9
.354
5 +0.4
−0.2
.197 +.016
−.008
3.5
.138
+
0.25
.010
5.08
.200
0.5
.020
2.54
.100
7.62
.300
1
3 4 5 6 7 8 10
20
181716 151413 11
−
−
1
3 4 5 6 7 8 10
20
181716 151413 11
0.25
.010
Direction indication*
Direction indication*
+
• 2-coil latching
(Reset condition)
1
3 4 5 6 7 8 10
−
+ 20
181716 151413 11
−
+
Direction indication*
*Orientation stripe typical-located on top of relay
General tolerance: ±0.3 ±.012
REFERENCE DATA
1. Maximum switching capacity
2. Life curve
3. Mechanical life
1.0
0.5
0.4
0.3
30 V DC resistive load
100
125 V AC resistive load
10
0.2
30
136
100
200
Switching voltage,V
0
0.5
1.0
Switching current, A
Ratio against the rated voltage, %V
DC load (cosϕ=1)
AC load (cosϕ=1)
No. of operations, ×104
Switching current, A
Tested sample: TQ2-12V, 10 pcs.
100
90
80
Pick-up voltage
Max.
Min.
70
60
50
40
Drop-out voltage
30
Max.
20
Min.
10
0
10
100
1,000
10,000
No. of operations, ×104
TQ
4.-(1) Electrical life (DC load)
4.-(2) Electrical life (AC load)
Tested sample: TQ2-12V, 6 pcs.
Condition: 1 A 30 V DC resistive load, 20 cpm
Tested sample: TQ2-12V, 6 pcs.
Condition: 0.5 A 125 V AC resistive load, 20 cpm
Change of contact resistance
100
90
90
Pick-up voltage
Max.
70
Min.
60
50
40
Drop-out voltage
Max.
30
20
Min.
10
80
70
60
50
Max.
40
Min.
30
20
10
0
5
10
15
No. of operations, ×104
20
Change of contact resistance
0
5
10
15
No. of operations, ×104
50
40
Max.
30
Min.
Min.
50
40
Drop-out voltage
60
50
1A
40
1A
0A
30
Max.
30
Min.
20
10
0
20
Nominal coil voltage
3 to 12 V DC type
24 V DC type
Max.
60
5
No. of operations, ×104
Tested sample: TQ4-12V
Measured portion: Inside the coil
Ambient temperature: 30°C 86°F
Temperature rise, C°
60
Pick-up voltage
70
5.-(2) Coil temperature rise (4C)
70
70
80
Tested sample: TQ2-12V
Measured portion: Inside the coil
Ambient temperature: 30°C 86°F
90
80
90
5.-(1) Coil temperature rise (2C)
100
Contact resistance, mΩ
100
10
70
Temperature rise, C°
80
Change of pick-up and drop-out voltage
Ratio against the rated voltage, %V
100
Contact resistance, mΩ
Ratio against the rated voltage, %V
Change of pick-up and drop-out voltage
60
50
1A
40
0A
30
20
20
10
10
20
10
0
5
No. of operations, ×104
0
10
0
100 110 120 130 140 150
Coil applied voltage, %V
100 110 120 130 140 150
Coil applied voltage, %V
6.-(1) Operate/release time characteristics
6.-(2) Operate/release time characteristics
7. Distribution of pick-up and drop-out voltages
Tested sample: TQ2-12V, 10 pcs.
Tested sample: TQ4-12V, 10 pcs.
Tested sample: TQ2-12V, 50 pcs.
6
4
3
Operate time
2
Max.
Min.
Max.
Min.
Release time
1
30
Pick-up voltage
Drop-out voltage
5
4
20
3
Operate time
2
10
1
Release time
0
80
90
100 110 120
Coil applied voltage, %V
Quantity
5
Operate/release time, ms
Operate/release time, ms
6
0
80
Max.
Min.
Max.
Min.
90
100 110 120
Coil applied voltage, %V
0 10 20 30 40 50 60 70 80 90 100
Ratio against the rated voltage, %V
9. Ambient temperature characteristics
10. Distribution of contact resistance
Tested sample: TQ2-L2-12V, 35 pcs.
Tested sample: TQ2-12V, 5 pcs.
Tested sample: TQ2-12V, 30 pcs. (30×4 contacts)
,yy,y,y,y,y,
y,y,y,y,y,y, ,yy,,y
y,
y, y, y,
30
Set voltage
20
10
0
y,y,y,y,y,y,
,yy,y,y,y,y,y,y,y,
Quantity
Reset voltage
10 20 30 40 50 60 70 80 90 100
Ratio against the rated voltage, %V
40
40
Drop-out
voltage
–40 –20
0
−
x
−
x
20
Pick-up voltage
20 40 60 80
Ambient temperature,°C
–20
30
Quantity
Variation ratio,%
8. Distribution of set and reset voltage
20
10
–40
0
30
40
50
Contact resistance, mΩ
137
TQ
11.-(1) High-frequency characteristics
Isolation characteristics
11.-(2) High-frequency characteristics
Insertion loss characteristics
11.-(3) High-frequency characteristics
V.S.W.R.
3.0
50
10
100
Frequency,MHz
2.4
V.S.W.R.
100
2.6
1.0
0.8
1.4
0.2
1.2
0
1,000
10
100
Frequency,MHz
Tested sample: TQ2-L-12V, 6 pcs.
Y
980m/s
2
Deenergized
condition
Energized condition
Z
Y,
Y
Z
980m/s2
X
980m/s2
196m/s
392m/s2
588m/s2
784m/s2
980m/s2
,
Y
,Z XX
Y
980m/s2
Reset state
Set state
Z
980m/s2
X
980m/s2
196m/s
392m/s2
588m/s2
784m/s2
980m/s2
,
Y
2
980m/s2
,
Z
980m/s2
,
X
0
0.5
Frequency,GHz
980m/s2
,
X
10
13.-(3) Influence of adjacent mounting
ON
Pick-up voltage
ON
0
–10
ON
OFF OFF
10
Drop-out voltage
0
OFF
–10
0
13.-(2) Influence of adjacent mounting
1
13.-(1) Influence of adjacent mounting
,
2
980m/s2
,
Z
1.0
1,000
12.-(2) Malfunctional shock (latching)
,
1.8
1.6
Tested sample: TQ2-12V, 6 pcs.
,Z XX
2.0
0.4
12.-(1) Malfunctional shock (single side stable)
Z
Y,
Y
2.2
0.6
Rate of change, % Rate of change, %
Insertion loss, dB
Isolation, dB
2.8
5
.197
Inter-relay distance
, mm inch
14.-(1) Contact reliability
(1 mA 5 V DC resistive load)
Pick-up voltage
ON
0
ON
–10
ON
10
Drop-out voltage
OFF
0
OFF
–10
OFF
0
5
.197
Inter-relay distance
10
ON
0
ON
–10
ON
70.0
50.0
30.0
ON
10
2.0
1.0
0.5
OFF
OFF
–10
, mm inch
100
20Hz
70.0
50.0
30.0
500Ω
10.0
5.0
138
100
Change of pick-up and drop-out voltage
Circuit
m=1.4
µ=16.4×107
95% reliability limit =
19.5×106
(Weibull probability paper)
10
No. of operatins, ×107
10
No. of operations, ×106
, mm inch
15. Actual load test (35 mA 48 V DC wire spring
relay load)
F(t), %
99.9
99.0
95.0
0.2
0.1
1.0
m=2.15
µ=2.7×107
95% reliability limit =
7.6×106
(Weibull probability paper)
0.2
0.1
1.0
OFF
5
.197
Inter-relay distance
Tested sample: TQ2-12V
Condition: Detection level 100 Ω
2.0
1.0
0.5
10.0
5.0
Drop-out voltage OFF
0
0
14.-(2) Contact reliability
(100 µA 5 V DC resistive load)
Pick-up voltage
F(t), %
99.9
99.0
95.0
100
48 V
DC
500Ω
Ratio against the rated voltage, %V
10
Rate of change, % Rate of change, %
Rate of change, % Rate of change, %
Tested sample: TQ2-12V
Condition: Detection level 10 Ω
90
80
Max.
Min.
60
50
40
30
Drop-out voltage
Max.
Min.
20
10
0
Wire spring relay Circuit diagram
Pick-up voltage
70
10
20
30
40
No. of operations, ×104
50
TQ
16. 0.1 A 53 V DC resistive load test
Change of pick-up and drop-out voltage
Change of contact resistance
100
70
60
50
40
Max.
30
Min.
20
10
0
10
20
30
40
No. of operations, ×104
100
90
80
Pick-up voltage
Max.
Min.
70
60
50
40
30
Drop-out voltage
20
Max.
Min.
10
0
50
500
1,000
1,500
2,000
No. of operations, ×104
Contact resistance, mΩ
80
Ratio against the rated voltage, %V
100
90
Contact resistance, mΩ
Change of contact resistance
90
80
70
60
Max.
50
40
30
Min.
20
10
0
500
1,000
1,500
2,000
No. of operations, ×104
17.-(1) Distribution of M.B.B. time
Sample: TQ2-2M-5V, 85 pcs.
Terminal Nos. 2-3-4: ON
Terminal Nos. 2-3-4: OFF
−
x:105.6
µs
3σn-1: 163.8 µs
Min.: 23 µs
Max.:243 µs
60
50
50
41
40
40
30
20
−
x:71.6
µs
3σn-1: 127.1 µs
Min.: 17 µs
Max.:187 µs
60
30
26
19
19
27
20
17
10
10
10
7
4
100 150 200 250 300 µs min.
~
~
~
100 150 200 250 300 350 µs max.
~
50
50
~
10
~
0
~
~
~
~
100 150 200 250 300 350 µs max.
~
50
~
50
~
100 150 200 250 300 µs min.
10
~
0
17.-(2) Distribution of M.B.B. time
Sample: TQ2-2M-5V, 85 pcs.
Terminal Nos. 7-8-9: ON
Terminal Nos. 7-8-9: OFF
−
x:115.6
µs
3σn-1: 167.3 µs
Min.:35 µs
Max.:254 µs
60
50
40
50
40
35
31
30
30
21
20
15
12
11
10
4
2
100 150 200 250 300 µs min.
100 150 200 250 300 350 µs max.
~
50
50
~
10
~
~
~
~
~
~
100 150 200 250 300 350 µs max.
0
~
100 150 200 250 300 µs min.
50
50
~
2
1
10
~
0
~
6
~
10
~
30
20
−
x:80.7
µs
3σn-1: 156.7 µs
Min.: 29 µs
Max.:298 µs
60
For Cautions for Use, see Page 178 and 179.
9/1/2000
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