* Other usable voltage range types are also available. Please contact us for details.
2. Specifications
Characteristics
Arrangement
Contact
Contact resistance (Initial)
Contact material
Protective construction
Nominal switching capacity (resistive load)
Rating
Max. carrying current (14V DC)
Nominal operating power
Min. switching capacity (resistive load)*
Initial insulation resistance
Electrical
characteristics
Breakdown
voltage (Initial)
Between open contacts
Between contacts and coil
1
Item
1 Form C, 1 Form C2
Specifications
N.O.: Typ7m, N.C.: Typ10m (By voltage drop 6 V DC 1 A)
Ag alloy (Cadmium free)
Standard type: Sealed type
Pin in Paste type: Flux tight type
N.O.: 20A 14V DC, N.C.: 10A 14V DC
N.O.: 20 A for 1 hour, 30 A for 2 minutes (at 20C
68F)
(when coil powered on one side)
640 mW (for pick-up voltage max. 7.2 V DC), 800 mW (for pick-up voltage max. 6.5 V DC)
1A 14V DC
Min. 100 M (at 500V DC, Measurement at same location as “Breakdown voltage” section.)
500 Vrms for 1 min. (Detection current: 10mA)
500 Vrms for 1 min. (Detection current: 10mA)
Max. 10ms (at 20C
68F,
excluding contact bounce time) (Initial)
Max. 10ms (at 20C
68F,
excluding contact bounce time) (Initial)
Min. 100 m/s
2
{10G} (Half-wave pulse of sine wave: 11ms; detection time: 10s)
Min. 1,000 m/s
2
{100G} (Half-wave pulse of sine wave: 6ms)
10 Hz to 100 Hz, Min. 44.1m/s
2
{4.5G} (Detection time: 10s)
10 Hz to 500 Hz, Min. 44.1m/s
2
{4.5G}
Time of vibration for each direction; X, Y direction: 2 hours, Z direction: 4 hours
Min. 10
7
(at 120 cpm)
[Standard type]
<Resistive load>
Min. 10
5
(at nominal switching capacity, operating frequency: 1s ON, 9s OFF)
<Motor load>
N.O. side: Min. 210
5
: at 25 A (inrush), 5 A (steady), 14 V DC; Min. 10
5
: at 25 A 14 V DC (Motor lock)
N.C. side: Min. 210
5
: at 20 A 14 V DC (brake) (Operating frequency: 0.5s ON, 9.5s OFF)
[Pin in Paste type]
<Resistive load>
Min. 10
5
(at nominal switching capacity, operating frequency: 1s ON, 9s OFF)
<Motor load>
N.O. side: Min. 10
5
: at 25 A (inrush), 5 A (steady), 14 V DC; Min. 510
4
: at 25 A 14 V DC (Motor lock)
N.C. side: Min. 10
5
: at 20 A 14 V DC (brake) (Operating frequency: 0.5s ON, 9.5s OFF)
Ambient temperature: –40C to +85C
–40F to +185F
Humidity: 5% R.H. to 85% R.H. (Not freezing and condensing at low temperature)
6 cpm (at nominal switching capacity)
1 Form C type: approx. 3.5 g
.12 oz,
Twin type: approx. 6.5 g
.23 oz
Operate time (at nominal voltage)
Release time (at nominal voltage)
Shock
resistance
Mechanical
characteristics
Vibration
resistance
Mechanical
Functional
Destructive
Functional
Destructive
Expected life
Electrical
Conditions
Mass
Conditions for operation, transport and
storage*
2
Max. operating speed
Notes:
*1. This 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.
*2. The upper operation ambient temperature limit is the maximum temperature that can satisfy the coil temperature rise value. Refer to “6. Usage, Storage and Transport
Conditions“ in
AMBIENT ENVIRONMENT section in Relay Technical Information.
Please inquire if you will be using the relay in a high temperature atmosphere (110C
230F).
*3. Depends on connection conditions. Also, this does not guarantee repeated switching. We recommend that you confirm operation under actual conditions.
If the relay is used continuously for long periods of time with coils on both sides in an energized condition, breakdown might occur due to abnormal heating depending on
the carrying condition. Therefore, please inquire when using with a circuit that causes an energized condition on both sides simultaneously.
2
ds_61215_en_cj: 010113D
CJ (ACJ)
REFERENCE DATA
1.-(1) Coil temperature rise (at room
temperature)
Sample: ACJ1212, 3pcs
Measured portion: Inside the coil
Contact carrying current: 10A, 15A, 20A
Ambient temperature: 25C
77F
200
180
Temperature rise,
°C
Temperature rise,
°C
160
140
120
100
80
60
40
20
0
12
14
16
20A
15A
10A
1.-(2) Coil temperature rise (at 85C
185F)
Sample: ACJ1212, 3pcs
Measured portion: Inside the coil
Contact carrying current: 10A, 15A, 20A
Ambient temperature: 85C
185F
(when coil powered on one side)
1.-(3) Coil temperature rise (at room
temperature)
Sample: ACJ2212, 3pcs
Measured portion: Inside the coil
Contact carrying current: 10A, 15A, 20A
Ambient temperature: 25C
77F
200
180
Temperature rise,
°C
160
140
120
100
80
60
40
20
20A
15A
10A
(when coil powered on one side)
200
180
160
140
120
100
80
60
40
20
0
(when coil powered on one side)
20A
15A
10A
12
14
16
0
12
14
16
Coil applied voltage, V
Coil applied voltage, V
Coil applied voltage, V
1.-(4) Coil temperature rise (at 85C
185F)
Sample: ACJ2212, 3pcs
Measured portion: Inside the coil
Contact carrying current: 10A, 15A, 20A
Ambient temperature: 85C
185F
(when coil powered on one side)
1.-(5) Coil temperature rise (at room
temperature)
Sample: ACJ5212, 3pcs
Measured portion: Inside the coil
Contact carrying current: 10A, 15A, 20A
Ambient temperature: 25C
77F
200
180
Temperature rise,
°C
160
140
120
100
80
60
40
20
20A
15A
10A
1.-(6) Coil temperature rise (at 85C
185F)
Sample: ACJ5212, 3pcs
Measured portion: Inside the coil
Contact carrying current: 10A, 15A, 20A
Ambient temperature: 85C
185F
(when coil powered on one side)
200
180
Temperature rise,
°C
160
140
120
100
80
60
40
20
0
(when coil powered on one side)
200
180
Temperature rise,
°C
160
140
120
100
80
60
40
20
20A
15A
10A
20A
15A
10A
12
14
16
0
12
14
16
0
12
14
16
Coil applied voltage, V
Coil applied voltage, V
Coil applied voltage, V
2.-(1) Ambient temperature and operating
voltage range
2.-(2) Ambient temperature and operating
voltage range
3.-(1) Distribution of pick-up and drop-out
voltage
Sample: ACJ2112, 50pcs.
Ambient temperature: Room temperature
20
Coil applied voltage, VDC
Coil applied voltage, VDC
Operating voltage range
20
Operating voltage range
50
15
15
Quantity, n
40
Pick-up
voltage
Drop-out
voltage
30
10
10
20
5
5
0
-40 -20
Pick-up voltage:
ACJ1112, ACJ1112P
ACJ2112, ACJ2112P
ACJ5112, ACJ5112P
(cold start)
0
20 40 60 80 100 120
Ambient temperature,
°C
0
-40 -20
Pick-up voltage:
ACJ1212, ACJ1212P
ACJ2212, ACJ2212P
ACJ5212, ACJ5212P
(cold start)
10
0
0 0.5 1 1.5 2 2.5 3 3.5 4 4.5 5 5.5 6 6.5 7 7.5
Voltage, V
0
20 40 60 80 100 120
Ambient temperature,
°C
ds_61215_en_cj: 010113D
3
CJ (ACJ)
3.-(2) Distribution of pick-up and drop-out
voltage
Sample: ACJ2212, 50pcs.
Ambient temperature: Room temperature
50
Pick-up voltage
Drop-out voltage
40
Quantity, n
Quantity, n
4.-(1) Distribution of operate and release time
Sample: ACJ2112, 50pcs.
Ambient temperature: Room temperature
50
4.-(2) Distribution of operate and release time
Sample: ACJ2212, 50pcs.
Ambient temperature: Room temperature
50
*Without diode
Operate time
Release time
*Without diode
Operate time
Release time
40
Quantity, n
40
30
30
30
20
20
20
10
0
0 0.5 1 1.5 2 2.5 3 3.5 4 4.5 5 5.5 6 6.5 7 7.5
Voltage, V
10
0
0 0.5 1 1.5 2 2.5 3 3.5 4 4.5 5 5.5 6 6.5 7 7.5
Time, ms
10
0
0 0.5 1 1.5 2 2.5 3 3.5 4 4.5 5 5.5 6 6.5 7 7.5
Time, ms
5.-(1) Electrical life test (Motor free)
Sample: ACJ2212, 3pcs
Load: Inrush current: 25A/Steady current: 5A,
Power window motor actual load (free condition)
Tested voltage: 14V DC
Switching frequency: ON 0.5s, OFF 9.5s
Switching cycle: 210
5
Ambient temperature: Room temperature
Change of pick-up and drop-out voltage
10
Pick-up and drop-out voltage, V
8
Pick-up voltage
6
Drop-out voltage
Max.
X
Min.
Max.
X
Min.
2
0
Change of contact resistance
50
Contact resistance, m
40
Contact welding: 0 time
Miscontact: 0 time
N.C. side
N.O. side
Circuit
No. 1
side
No. 2
side
0.5s
0.5s
5s
10s (1 cycle)
30
20
Max.
Max.
X(N.C.)
X(N.O.)
Min.
Min.
0
10
No. of operations,
×
10
4
20
4
10
10
No. of operations,
×
10
4
20
0
14V DC
M
P/W motor
(free condition)
Load current waveform
Inrush current: 25A, Steady current: 6A,
Brake current: 13A
10A
100ms
4
ds_61215_en_cj: 010113D
CJ (ACJ)
5.-(2) Electrical life test (Motor lock)
Sample: ACJ2212, 3pcs
Load: Steady current: 25A, Power window motor
actual load (lock condition)
Tested voltage: 14V DC
Switching frequency: ON 0.5s, OFF 9.5s
Switching cycle: 10
5
Ambient temperature: Room temperature
Change of pick-up and drop-out voltage
10
Pick-up and drop-out voltage, V
8
Pick-up voltage
6
Drop-out voltage
Max.
X
Min.
Max.
X
Min.
Change of contact resistance
50
40
Contact welding: 0 time
Miscontact: 0 time
Contact resistance, m
N.C. side
N.O. side
Circuit
No. 1
side
No. 2
side
0.5s
0.5s
5s
10s (1 cycle)
30
20
Max.
Max.
X(N.O.)
X(N.C.)
Min.
Min.
0
5
No. of operations,
×
10
4
10
4
2
0
10
5
No. of operations,
×
10
4
10
0
14V DC
M
P/W motor
(lock condition)
Load current waveform
Current value: 25A
10A
100ms
DIMENSIONS
(mm
inch)
1. Twin type (8-pin)
CAD Data
CAD
Data
Download
CAD
Data
from our Web site.
External dimensions
12.2
.480
13.7
.539
PC board pattern (Bottom view)
4.5
.177
2.0
.079
4.5
.177
2×1.5 dia.
2×.059 dia.
13.5
.531
Max. 1.0
Max. .039
A*
Pre-soldering (all terminals)
2×1.0
2×.039
4.5
.177
2.0
.079
4.5
.177
4×0.6 Sealed by epoxy resin
4×.024
4×0.25
4×.010
2×1.2 6.5
2×.047 .256
0.4
.016
3.5
.138
6.5
.256
2×1.5 dia.
4.0
4×1.0 dia.
2×.059 dia.
.157
4×.039 dia.
10.45
.411
Tolerance:
0.1
.004
Schematic (Bottom view)
NC
COIL
COM
0.8±0.3
.031±.012
2×0.6
4.0
2×.024
.157
10.45
.411
2×0.32
2×.013
Dimension:
Tolerance
Max. 1mm
.039 inch:
0.1
.004
1 to 3mm
.039 to .118 inch:
0.2
.008
Min. 3mm
.118 inch:
0.3
.012
NO
COIL
COM
* Dimensions (thickness and width) of terminal is measured before pre-soldering.
Intervals between terminals is measured at A surface level.
When using modelsim to simulate , sometimes the syntax is not supported and it says that it is only supported in System Verilog. However, my code compiles well in QuartusII. Is System Verilog differen...
AD-DC rectification, precision rectification:1. What are the differences between a rectifier bridge, four diode rectification, and op amp rectification?2. After rectification, why is the positive half...
Just as the title says.
I opened the battery pack and saw a protection circuit inside, but I couldn't figure out its circuit diagram for the moment. Firstly, it was a surface-mounted circuit, and seco...
1. Introduction
This design was made for participating in an electronic design competition. It effectively solved the problem of the operation and control of an electric car on a seesaw. The s...[Details]
With the advent of increasingly powerful processors, image sensors, memory, and other semiconductor devices, as well as the algorithms that enable them, computer vision can be implemented in a wide...[Details]
In recent years, lighting has become an important area that countries around the world are targeting to promote energy conservation and environmental protection. According to statistics, about 20% ...[Details]
With the rapid development of urban economy, elevators are increasingly used as a vertical transportation tool. However, elevator fault detection and maintenance, especially the role of elevator remot...[Details]
The data collector of the automatic weather station is generally designed based on a single-chip microcomputer or a PC/104 bus controller. It has the characteristics of good compatibility with PC, low...[Details]
Product series: PB-B-RS232/485 interface (hereinafter sometimes referred to as "interface") is a product in the PROFIBUS bus bridge series.
The main purpose of the bridge series ...[Details]
LED is the abbreviation of light emitting diode, which is an electric light source made of semiconductor technology. The core part of LED is a chip composed of P-type semiconductor and N-type semi...[Details]
As people's requirements for safety and comfort in the process of driving cars continue to increase, automotive radars are widely used in the car's adaptive cruise system, collision avoidance syste...[Details]
Motors are important products that convert electrical energy into mechanical energy to achieve automation, and they are widely used in industrial control, medical electronics, white a...[Details]
It is well known to automotive suppliers that automakers are demanding more from their supply base. For connector suppliers, this means stricter requirements for product performance, stability and ...[Details]
The era of mobile access to the Internet has arrived, and it will rapidly change the business and infrastructure needs of mobile operators under a whole new trend of requirements. We need 4G LTE to...[Details]
Abstract: The output of high-range acceleration sensor is less than 10 mV under the excitation of small signal. The noise of traditional test system may cover such small voltage signal, so that hig...[Details]
The DisplayPort interface standard is approved by the Video Electronics Standards Association (VESA) to provide an open, scalable standard for the entire industry. The development of DisplayPort ca...[Details]
The above is to use MB1404 as a stereo composite signal transmitter. You can use the internal high-frequency amplifier and oscillator or not! According to my experience, I still recommend beginners...[Details]
Cars equipped with xenon headlights are already common on the road. Whether they are standard equipment on high-end cars or embellishments on modified cars, xenon lamps are gradually becoming a sym...[Details]
Embedded System
京公网安备 11010802033920号
EEWORLD
