NR-SD-24 [NAIS]
LONG LIFE RELAY; 长寿命继电器型号: | NR-SD-24 |
厂家: | NAIS(MATSUSHITA ELECTRIC WORKS) |
描述: | LONG LIFE RELAY |
文件: | 总8页 (文件大小:121K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
UL CSA
pending pending
LONG LIFE RELAY
FEATURES
NR-RELAYS
• Sealed construction for automatic wave soldering and cleaning
10
.394
20
.787
• Latching types available
• High sensitivity — TTL direct drive possible
• High speed — Up to 500 cycle/sec. operations
10
.394
• Wide switching range and high welding resistance
Gold cobalt (AuCo) contact permits
• Wider switching range from low level up to high current: 10 µA to 1 A
• Higher sticking resistance to inrush current
mm inch
• Stable contact resistance from initial stage throughout life
SPECIFICATIONS
Contact
Characteristics (at 25°C 77°F)
Arrangement
1 Form C
Max. operating speed
500 cps. (mechanical)
Initial contact resistance, max.
(By voltage drop 6 V DC 1 A)
Initial insulation resistance*1
Min. 1000 MΩ at 500 V DC*2
60 mΩ
Between live parts
and ground
1,000 Vrms
350 Vrms (500 V DC)
1,000 Vrms
Initial contact pressure
Contact material
Approx. 5 g .18 oz
Gold cobalt
3 pF
Initial
Between open
breakdown
contact
voltage*3
Sealed type
Contact-
Contact
Between contact
and coil
Magnetically
sealed type
4 pF
4 pF
5 pF
5 pF
6 pF
Operate time*4
(at nominal voltage)
Release time (without diode)*4
(at nominal voltage)
Sealed type
Max. 3 ms (Approx. 1 ms)
Max. 2 ms (Approx. 0.5 ms)
N.O.
contact-coil
Magnetically
sealed type
Electrostatic
capacitance
Sealed type
N.C.
contact-coil
Contact Single side stable
bounce
Approx. 0.5 ms
Approx. 0.3 ms
Magnetically
sealed type
1-coil /2-coil latching
time
1A 20 VDC,
0.3A 110 VAC
Max. 35°C at 0.5 W operating power
Max. 65°C at 1 W operating power
Nominal switching capacity
Temperature rise
Max. switching power
Max. switching voltage
Max. switching current
Min. switching power
Mechanical (at 500 cps.)
33 VA, 20 W
110 V AC, 30 V DC
AC 0.3 A, DC 1 A
Approx. 100 mV 10µA
109
Functional*5
Shock resistance
Min. 980 m/s2 {100 G}
Min. 980 m/s2 {100 G}
98 m/s2 {10 G}, 10 to 55 Hz
at double amplitude of 1.6 mm*8
117.6 m/s2 {12 G}, 10 to 55 Hz
at double amplitude of 2 mm
Destructive*6
Rating
(resistive)
Functional*7
Vibration
resistance
Destructive
1 A 20 V DC/
0.3 A 110 V AC
106 (at 1 cps.)
3×106 (at 2 cps.)
5×106 (at 5 cps.)
107 (at 25 cps.)
5×107 (at 50 cps.)
108 (at 100 cps.)
Conditions for opera- Ambient
–55°C to +65°C*10
–67°F to +149°F
tion, transport and
storage*9 (Not freez-
ing and condensing
at low temperature)
temp.
0.5 A 30 V DC/
0.1 A 110 V AC
Humidity
5 to 85% R.H.
Expected
life (min.
operations)
0.25 A 30 V DC/
0.25 A 30 V AC
Electrical
(resistive)
Unit weight
Approx. 7 g .25 oz
0.2 A 24 V DC/
0.2 A 24 V AC
Remarks
*
*
*
*
*
*
*
*
*
Specifications will vary with foreign standards certification ratings.
0.1 A 12 V DC/
0.1 A 12 V AC
1
2
3
4
5
6
7
8
Measurement at same location as "Initial breakdown voltage" section
Min. 500MΩ at 100 V DC between coils of 2 coil latching type
Detection current: 10mA, Except for between coils of 2 coil latching type
Excluding contact bounce time
Half-wave pulse of sine wave: 6ms; detection time: 10µs
Half-wave pulse of sine wave: 6ms
0.1 A 9 V DC/
0.1 A 9 V AC
Coil (polarized) (at 25°C 77°F)
Detection time: 10µs
Although NR relays are rated at 10 G/55 cps. vibration resistance, they will with-
stand up to 60 G/2,000 cps., provided they receive additional support such as
anchoring to the PC board with epoxy resin.
Refer to 5. Conditions for operation, transport and storage mentioned in
AMBIENT ENVIRONMENT (Page 61)
Total temperature (ambient temperature plus temperature rise in coil) should not
exceed 90°C 194°F for single side stable, and 105°C 221°F for latching relays.
See Reference Data for determination of coil voltage versus temperature.
Single side stable
72 to 133 mW
41 to 45 mW
Minimum operting power
Nominal operating power
1 coil latching
2 coil latching
Single side stable
1 coil latching
2 coil latching
9
*
72 to 107 mW
147 to 300 mW
74 to 153 mW
147 to 331 mW
10
*
112
NR
TYPICAL APPLICATIONS
Telecommunications equipment, alarm
devices, machine tools, NC machines, au-
tomatic warehouse control, conveyors,
air-conditioners, pressing machines, tex-
tile machinery, elevators, control panels,
pin-board programmers, parking meters,
industrial robots, detectors, annunciators,
optical instruments, business machines,
time recorders, cash registers, copiers,
vending machines, medical equipment.
ORDERING INFORMATION
EX. NR-
H
L2
D
12V
Types of case
Operating function
Coil voltage (DC)
5, 6, 12, 24, 42 V
H: Sealed
S: Magnetically sealed
Nil: Single side stable
L: 1 coil latching
L2: 2 coil latching
(Notes) 1. Power types and 1 Form A types are available on request.
(Notes) 2. For UL/CSA recognized types, delete “N” at head portion of part No. and add suffix UL/CSA, when ordering. Ex. RSD-12V UL/CSA
(Notes) 3. Standard packing Carton: 50 pcs., Case: 500 pcs.
TYPES AND COIL DATA (at 25°C 77°F)
Single side stable (NR-SD)
Maximum
allowable voltage,
V DC (40°C 104°F)
Nominal coil
voltage, V DC
Pick-up voltage,
V DC (max.)
Drop-out voltage
V DC (min.)
Coil resistance,
Nominal operating
power, mW
Inductance,
Henrys
Ω (±10%)
5
6
3.5
4.7
9.3
16
0.5
0.6
1.2
2.4
4.2
13
14
28
42
85
170
220
147
164
162
288
221
0.050
0.075
0.3
12
24
42
890
2,000
8,000
0.66
2.7
28
1 coil latching (NR-SLD)
Maximum allowable
voltage,
V DC (40°C 104°F)
Nominal coil voltage,
V DC
Pick-up voltage,
V DC (max.)
Coil resistance,
Nominal operating
Inductance,
Henrys
Ω (±10%)
power, mW
5
6
3.5
4.3
8.0
17
18
20
340
450
74
80
0.12
0.16
0.66
2.4
12
24
42
30
1,500
6,000
12,000
96
75
96
23
110
147
3.9
2 coil latching (NR-SL2D)
Coil resistance,
Maximum allowable
voltage,
V DC (40°C 104°F)
Nominal coil voltage,
V DC
Pick-up voltage,
V DC (max.)
Nominal operating
power, mW
Inductance,
Henrys
Ω (±10%)
Set coil
Reset coil
5
6
3.5
4.3
13.0
14.0
26.0
50.0
75.0
170
225
170
225
147
160
230
213
321
0.024
0.04
0.14
0.35
0.8
12
24
42
8.0
650
650
17.0
23.0
2,700
5,500
2,700
5,500
(Note) Maximum allowable operating power: 1000 mW at 25°C 77°F.
mm inch
DIMENSIONS
20
10
Ground terminal
Terminal dimensions (Except soldering)
.787
.394
6
7
1
5
Terminal No.
Thickness
Width
2.54
.100
0.5
.020
0.6
.024
10
3
1, 7
.394
4
.118
0.3
.012
0.7
.028
3.5
3
2
4
.138
1.3 DIA.
2.54
.051 DIA.
.100
5.1
2, 3, 5, 6,
ground terminal
0.5 DIA.
.020 DIA.
.201
2.54
5.1 5.1 5.1
.201 .201 .201
.100
Soldering: 0.3 .012 max.
General tolerance: ±0.5 ±.020
Tolerance: ±0.2 ±.008
113
NR
DIFFERENCES BETWEEN NR RELAYS AND REED RELAYS
"Getter" holes are formed on both pole
shoes to obtain uniform contact resis-
tance throughout life. Film-forming phe-
nomena on contacts is thus fully
prevented.
NR relays
Reed relays
Structure
Contact arrangement
Contact capacity
1 Form C
1 Form A or 1 Form B
5 to 15 W
20 W (high contact pressure)
Single side stable
Latching
Operating function
"Getter" hole
Single side stable
No
Yes
REFERENCE DATA
1.-(1) Contact reliability
1.-(2) Contact reliability
2. Coil temperature rise
Test sample: NR-SD-24V 54 pcs.
Circuits: (A) Following figure with diode
(B) Following figure without diode
TEST CONDITION
(under saturated condition)
Sample: NR-SD-24V, 10 pcs.
Contact voltage: 100 mV
Contact current: 10µA
Cycle rate: 50 cps.
100
90
Start
80
Detection level: 100 Ω
Testing operation: 3×107
m = 1.9
R54
R1
R
2
R
52
R
53
70
R
0
24 V DC
60
Magnetically
sealed type
σ = 2.5×107
µ = 4.7×107
R0
R1
R2
R
3
R
53
R
54
50
95% reliability limit: 1.15×107
(Mean time between failure)
40
Item to be checked: Detect with the circuit stopped
Circuits:
Plastic
30
sealed type
F(t)(%)
99.9
99.0
95.0
(A) Diode provided:The circuit does not stop through-
out 100 million times.
(B) Diode not provided: λ60 = 2.5 × 10-8 times
20
10
250
500 750 1,000 1,250
Operating power, mW
70.0
50.0
30.0
10.0
5.0
2.0
1.0
0.5
0.2
0.1
1
No. of operations, ×107
5
10
(WEIBULL)
3.-(1) Operate time including bounce time
(Single side stable)
3.-(2) Operate time including bounce time
(2 coil latching)
4. Release time including bounce time
(Single side stable)
3.0
2.5
2.0
1.5
3.0
2.5
2.0
1.5
1.0
3.0
2.5
2.0
1.5
Max.
1.0
1.0
Max.
x
Max.
Min.
0.5
0.5
0
0.5
x
x
Min.
Min.
180
Coil applied voltage, %V
0
0
60
100
140
220
60
100
140
180
220
60
100
140
180
220
Coil applied voltage, %V
Coil applied voltage, %V
114
NR
5.-(1) Leaving at high temperature
(Change of pick-up and drop-out voltages)
Tested sample: NR-SD-24V, 30 pcs.
Condition: Deenergized leaving at 90°C 194°F
(constant temperature)
5.-(2) Leaving at high temperature
(Change of contact resistance)
Tested sample: NR-SD-24V, 30 pcs.
Condition: Deenergized leaving at 90°C 194°F
(constant temperature)
6. High frequency characteristics
Tested sample: NR-SD-24V
Tested condition:
SG(Signal generator)
1,000
20
18
B
A
50Ω
N.O.
500
N.C. side contact
16
N.O. side contact
Pick-up voltage
Max.
N.C.
14
12
10
8
50Ω
Isolation loss between
A and B is measured.
Max.
x
100
Max.
Min.
50
Drop out voltage
–100
–50
Max.
x
Min.
6
Min.
4
Min.
2
100
1,000
10,000
5
10
50 100
500
1,000
1,500
Time, hr
Frequency, MHz
Time, hr
7. Contact sticking resistance
TEST CONDITION
8. Distribution of contact resistance
Tested sample: NR-SD-24V (WG type) 105 pcs.
TEST RESULT
The purpose of this test was to confirm contact stick-
ing resistance and contact stability against coil rip-
ples.
Tested Sample: NR-SD-24V, 10 pcs.
Test method: Following coil ripples were applied.
Test period: 500 hours
No occurance of sticking was observed.
Contact resistance: Fig. 1
NR-SD-24V: 29 mΩ to 30.4 mΩ
x = 24.2 mΩ
3σ = 9.27 mΩ
50
40
30
20
10
100
50
24 V DC
Max.
x
100 Hz
Min.
7 V DC
10
100
1,000
Energization time, Hr Fig. 1
In actual application, above coil ripples should be
avoided and use of a capacitor in the circuit is recom-
mended to keep the ripple factor below 5%.
10
20
30
40
50
Contact resistance, mΩ
9.-(1) Rate of change in pick-up and drop-out
voltage (Single side stable)
9.-(2) Rate of change in pick-up voltage
(2 coil latching)
10.-(1) Mechanical life
(Change of pick-up and drop-out V)
Tested Sample: NR-SD-24V, 10 pcs.
Operation frequency: 500 cps
180
180
160
140
120
Drop-out
voltage
160
140
120
100
80
15
Pick-up Voltage
Max.
Min.
Pick-up
voltage
10
100
Pick-up
voltage
80
60
40
20
Drop-out Voltage
5
60
Max.
Min.
40
20
–40 –20
0
20 40 60 80 100
–40 –20
0
20 40 60 80 100
1,000
10,000
100,000
–30 –10 10 30 50 70 90
–30 –10 10 30 50 70 90
No. of operations, ×104
Ambient temperature, °C
Ambient temperature, °C
10.-(2) Mechanical life
11.-(1) Electrical life
11.-(2) Electrical life
Tested Sample: NR-SD-24V, 10 pcs.
Load: 60 mA 24 V DC resistive load
Frequency: 50 cps
(Change of contact resistance)
Tested Sample: NR-SD-24V, 10 pcs.
Operation frequency: 500 cps
(1 A 20 V DC resistive load)
Tested sample: NR-SD-24V, 10 pcs.
F(t)(%)
99.9
99.0
90
80
70
60
50
40
30
20
10
N.C. side
N.O. side
N.C. side
N.O. side
95.0
70.0
50.0
30.0
150
100
50
10.0
5.0
Max.
Min.
2.0
1.0
0.5
η: 1.85×106
µ: 1.65×106
σ: 5.64×104
0.2
(Weibull probability paper)
0.1
1
5
10
1,000
10,000
100,000
100
1,000
1,0000
No. of operations, ×104
No. of operations, ×104
No. of operations, ×104
115
NR
11.-(3) Electrical life
11.-(4)Electrical life
Tested Sample: NR-SD-12V, 10 pcs.
Load: 54 mA 12 V DC inductive load
with diode protection
(4 relay coils in parallel of NR-SD-12V)
Frequency: 50 cps
(327 mA 24 V DC relay coil load)
Tested sample: NR-SD-24V, 5 pcs.
Condition: HP2-DC24×6 pcs. in parallel,
diode protector provided
NR relay contact
24 V DC
1,000
16
L1
L2
L3
L4
L5
L
6
Pick-up voltage
12
L1~L6: HP2-DC24V × 6 pcs. in parallel
Max.
x
Diode protector provided
100
Min.
100
80
60
40
20
Max.
Min.
8
4
0
Drop-out voltage
Max.
x
Max.
x
Min.
Min.
1,000
10,000
100
200
300
100
200
300
No. of operations, ×104
No. of operations, ×104
No. of operations, ×104
12. Thermal electro motive force
Tested Sample: NR-SD-12V, 5 pcs.
Coil applied V: 12 V DC
13. High temperature test
TEST CONDITION
Tested Sample: NR-SD-24V, 30 pcs.
Ambient temperature: 80°C 176°F
14. Influence of adjacent mounting mm inch
Distance
10 15
0
5
(0) (.197) (.394) (.591)
Ambient atmosphere: 25°C 77°F, 60% RH
Type
Humidity: less than 50% R.H.
Exposure time: 2,000 hours with relays deenergized.
Magnetically
shielded type
200
±5% ±1%
0
0
TEST RESULT
Contact resistance: Fig. 1
Sealed type
—
±10% ±6% ±2%
All samples were measured less than
100 mΩ in contact resistance throughout this test.
15. Resistive load test
TEST CONDITION
Tested Sample: NR-SD-24V, 10 pcs.
Load: 1 A 20 V DC Resistive
Cycle rate: 1.4 cps.
100
Contact resistance in life test
500
N.C.
N.O.
N.C.
N.O.
2
4
6
8
10 12 14 16
Hour
Max.
100
50
100
Max.
Mean value
of N.O.
Mean value
of N.C.
80
Max.
60
40
Min.
Max.
Min.
20
Min.
20
10
100
1,000 2,000
1
2
5
10
15
No. of operations, ×106
Exposure time, hr
APPLICATION HINTS
Contact protection circuit
When using NR relays in inductive load circuits, a contact protection circuit is recommended.
Examples:
CR
CR
Diode
S
Relay contact
S
S
r
L
L
L
r
c
c
: Inductive load
L
1. r = more than 20 to 30 ohms
Can be used for both AC and DC circuits.
For DC circuits only.
2. In an AC circuit impedance of L is to be Use 500 to 1000 ohms for r and 0.1 µF to
somewhat smaller than impedance of r 0.2 µF 200 V for c in a general 12 to 24 V
and c.
load circuit.
116
NR
The following is life data under our HP2 relay load.
Contact voltage
6 V DC
Contact current
232 mA
106 mA
54 mA
Contact protection circuit
0.2 µF + 1kΩ or diode
0.2 µF + 1kΩ or diode
0.1 µF + 1kΩ or diode
0.1 µF + 1kΩ or diode
0.2 µF + 1kΩ
Operating speed
2 op./s
Expected life, min. op.
3×107
3×107
3×107
2×107
3×107
2×107
2×107
12 V DC
2 op./s
24 V DC
2 op./s
100 V DC
24 V DC
15 mA
2 op./s
80 mA
2 op./s
100 V DC
200 V DC
20 mA
0.1 µF + 1kΩ or varistor
0.1 µF + 1kΩ
2 op./s
10 mA
2 op./s
(Notes)
1. When inrush current occurs in the capacitor load circuit or incandescent lamp load circuit, reduce it to less than 5 A. Electrical life of "AuCo" contact
types is 10,000 operations in a 5 A inrush current circuit.
2. When 5 A to 10 A inrush current occurs in the capacitor load circuit or incandescent lamp load circuit, the use of power types is recommended.
2 coil latching types
A) The circuit at right is recommended
when using one coil for latching and the
other coil for reset.
Rectifiers should be inserted in this circuit
when the nominal coil voltage of the NR
relay is more than 24 V DC.
than the measured pick-up voltage. Volt-
age difference on the coils will reduce
contact pressure proportionately.
Continuous bias voltage after an operat-
ing pulse lowers contact pressure and vi-
bration resistance.
NR relays are sensitive enough to be op-
erated by the discharge of energy accu-
mulated in the inner-coil capacitance.The
use of a diode of over 200 V breakdown
will prevent misoperation from this source.
In order to maintain the insulation be-
tween the two coils, connection of the ter-
minal No. 3 and No. 6 or the terminal No.
2 and No. 5 is recommended, as shown in
the right figure.
B) No damage will occur to the coil of ei-
ther the one or two coil latching types
even if the operating voltage is as much
as 2 or 3 times the nominal coil voltage.
C) If separate pulses are applied to each
coil of the 2 coil latching types, the first
pulse will operate when the pulses are of
equal voltage. When voltages differ the
higher voltage will cause operation pro-
vided the voltage difference is greater
coil
bias voltage
coil
Ripple factor
Coils should be operated on pure DC.
Rectified AC may cause changes in the
pick-up/drop-out characteristics because
of the ripple factor. Use of a capacitor in
the circuit is recommended to keep the
ripple factor below 5%.
Pulsating component
To calculate the ripple factor
E max. – E min.
: relay
R
R
Ripple factor (%) =
× 100%
E mean
E max. = max. value of pulsating component
E min. = min. value of pulsating component
E mean - average value DC component
E min. E max. E mean DC component
capacitor (ripple filter)
When designing NR relay circuits
Care should be taken when designing re-
lay circuits since the response of the relay
is so fast that bouncing or chattering from
conventional relays in the circuit may
cause false operation.
When using long lead wires
When long wires (as long as 100 m or
more) are to be used, the use of resis-
tance (10 to 50 Ω) in series with the con-
tact is required in order to eliminate the
effect of the possible inrush current due to
the stray capacitance existing between
the two wires or between the wire and
ground.
+
(Equivalent circuit)
Contact of NR relay
Energy accumulated in
static capacitance
Lead wire
10 to 50 Ω
(100 to 300 m)
117
NR
AC operation of latching relays
When using circuits such as those at the
right, avoid continued or extended latch-
ing or resetting power input.
Latching
switch
Reset
switch
Latching
switch
Reset
switch
2
5
6
3
1 coil bistable type
2 coil bistable type
Capacitor discharge operation of latching types
When operating latching types by dis-
charge of a capacitor, more reliable oper-
ation can be expected if the time to reach
pick-up voltage is greater than 2 ms at 5
to 10 µF: (24 V type).
(V)
Specified
Pick-up voltage
NR relay
coil
C
SW
t
more than 2 ms
NR relay contact
5
6
2
3
C
C
Flicker circuit
Automatic coil circuit interruption
Misoperation may occur in self-operated
cutoff circuits such as shown at right.This
can be avoided by adding a resistor and
capacitor and increasing the pick-up volt-
age to above that specified.
Coil voltage wave form
SW
V
In a timer circuit, step-pulse voltage from
PUT (Programmable Unijunction Transis-
tor) or SBS (Silicon Bilateral Switch) is
recommended.
NR relay contact
NR relay coil
T
NR relay coil
(Time)
Residual voltage
When single side stable types or latching
types are driven by transistor or UJT, re-
sidual voltage is sometimes applied to the
coils and decreases contact pressure at
N.O. side even if the transistor or UJT are
in OFF condition. As a result, characteris-
tics of relays may be harmed.Design your
circuits in principle to make such residual
voltage zero.
Short circuit prevention between N.C. and N.O.
The separation of loads or insertion of a
resistor for circuit protection are recom-
mended for the circuits where large cur-
rent flows due to arcing. (See Fig. 1).
Load separation
Load
N.C.
N.O.
N.C.
COM
COM
Load
N.O.
Load
Fig. 1
118
NR
mm inch
ACCESSORIES
PC board terminal sockets (with hold-down clip)
PC board pattern (Copper-side view)
5.0
.197
9.9
.390
6.15
.242
10
0.3
.012
.394
8-1.5 to 1.6 dia.
8-.059 to .063 dia.
2.4
1
7
6
.094
2.7
2
.106
20.9
.823
7.4
.291
E
3
5
4.4
4
R-PS
.173
Terminal width: 1.3 .051
Terminal thickness: 1.2 .047
General tolerance: ±0.5 ±.020
Tolerance: ±0.2 ±.008
For Cautions for Use, see Relay Technical Information (Page 48 to 76).
9/1/2000
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