Note: "x" in model names is to be replaced by a symbol which represents the terminal configuration (F: DIP/R: SMD) for actual model names.
Note: With nominal input/output voltage, maximum output current, and Ta=25° if not specified separately.
C,
Note: For 12V/±12V models, output voltage can be set to 15V/±15V by connecting the output adjustment terminal TRM to -Vout.
Note: For 12V model, output voltage can be set to 24V or 30V single output by making the COM terminal open.
(*1) With nominal input voltage, maximum output current, and Ta=25°
C.
(*2) The maximum output power value is between -40° and +50° For use in outside this temperature range, derating is needed.
C
C.
(*3) In balanced load for dual outputs ( "balanced load" means a condition where the +output and -output of load current are equal).
(*4) Output voltage includes input change, load change (balanced load), and temperature change.
(*5) In 50MHz, Ta=25°
C.
(*6) Output current restriction method. Automatically resumes when the causes are removed. Never operate the unit under output-shorted or overload conditions for over 30
seconds.
MODEL CC1R5-1203Sx-E CC1R5-1205Sx-E
CC1R5-1212Sx-E
CC1R5-1212Dx-E
ITEMS/UNITS
Nominal Voltage
V
DC12
Voltage Range
V
DC9.0-18
Input
Efficiency (typ)
(*1)
%
73
78
82
81
Current (typ)
(*1) A
0.151
0.160
0.152
0.154
Nominal Voltage
VDC
3.3
5
12
15
12
15
Maximum Current
A
0.400
0.300
0.125
0.100
0.060
0.050
Maximum Power
(*2) W
1.32
1.5
Maximum Line Regulation (Within input voltage range) mV
20
40
80
Maximum Load Regulation (0-100% load) (*3) mV
40
100
600
Output
Temperature Coefficient
80mV
200mV
300mV
(Ambient temperature–40° to +50°
C
C)
Max Power Total Regulation (max) (*4)
%
3
±
5
Maximum Ripple & Noise (typ/max) (*5) mVp-p
40/120
30/120
VDC
3.15-3.6
4.75-6.0
11.4-15.0
11.4 - 15.0
Voltage Adjustable Range
Over Current Protection
(*6)
Available
Function Over Voltage Protection
Not available
Remote ON/OFF Control
Available
Operating Ambient Temperature
℃
-40 to +85
Storage Ambient Temperature
℃
-40 to +85
%
RH
5-95 (the conditions of maximum 38° in wet bulb temperature and non-condensation should be ensured.)
C
Operating Ambient Humidity
Environment
Storage Ambient Humidity
%
RH
5-95 (the conditions of maximum 38° in wet bulb temperature and non-condensation should be ensured.)
C
Vibration
10-55Hz, 15 minutes sweep and 1.52mm total amplitude, 3 directions, 2h for each
Shock
980m/s² (100G), 6ms, 6 directions, 3 times for each, in non-operation
Withstand Voltage
Between input terminal and case, between input terminal and output terminal, and between output terminal and case: 500VAC (for 1 minute)
Isolation
Isolation Resistance
Between input terminal and output terminal: 500VDC, 50MΩ min
Note: "x" in model names is to be replaced by a symbol which represents the terminal configuration (F: DIP/R: SMD) for actual model names.
Note: With nominal input/output voltage, maximum output current, and Ta=25° if not specified separately.
C,
Note: For 12V/±12V models, output voltage can be set to 15V/±15V by connecting the output adjustment terminal TRM to -Vout.
Note: For 12V model, output voltage can be set to 24V or 30V single output by making the COM terminal open.
(*1) With nominal input voltage, maximum output current, and Ta=25°
C.
(*2) The maximum output power value is between -40° and +50° For use in outside this temperature range, derating is needed.
C
C.
(*3) In balanced load for dual outputs ( "balanced load" means a condition where the +output and -output of load current are equal).
(*4) Output voltage includes input change, load change (balanced load), and temperature change.
(*5) In 50MHz, Ta=25°
C.
(*6) Output current restriction method. Automatically resumes when the causes are removed. Never operate the unit under output-shorted or overload conditions for over 30
seconds.
・All specifications are subject to change without notice.
2
CC1R5-E
3
MODEL CC1R5-2403Sx-E CC1R5-2405Sx-E
CC1R5-2412Sx-E
CC1R5-2412Dx-E
ITEMS/UNITS
Nominal Voltage
V
DC24
Voltage Range
V
DC18-36
Input
Efficiency (typ)
(*1)
%
72
77
81
79
Current (typ)
(*1) A
0.076
0.081
0.077
0.079
Nominal Voltage
VDC
3.3
5
12
15
12
15
Maximum Current
A
0.400
0.300
0.125
0.100
0.060
0.050
Maximum Power
(*2) W
1.32
1.5
Maximum Line Regulation (Within input voltage range) mV
20
40
80
Maximum Load Regulation (0-100% load) (*3) mV
40
100
600
Output
Temperature Coefficient
80mV
200mV
300mV
(Ambient temperature–40° to +50°
C
C)
Max Power Total Regulation (max) (*4)
%
3
5
Maximum Ripple & Noise (typ/max) (*5) mVp-p
40/120
30/120
VDC
3.15-3.6
4.75-6.0
11.4-15.0
11.4- 15.0
Voltage Adjustable Range
Over Current Protection
(*6)
Available
Not available
Function Over Voltage Protection
Remote ON/OFF Control
Available
Operating Ambient Temperature
℃
-40 to +85
Storage Ambient Temperature
℃
-40 to +85
Operating Ambient Humidity
%
RH
5-95 (the conditions of maximum 38° in wet bulb temperature and non-condensation should be ensured.)
C
Environment
Storage Ambient Humidity
%
RH
5-95 (the conditions of maximum 38° in wet bulb temperature and non-condensation should be ensured.)
C
Vibration
10-55Hz, 15 minutes sweep and 1.52mm total amplitude, 3 directions, 2h for each
Shock
980m/s² (100G), 6ms, 6 directions, 3 times for each, in non-operation
Withstand Voltage
Between input terminal and case, between input terminal and output terminal, and between output terminal and case: 500VAC (for 1 minute)
Isolation
Isolation Resistance
Between input terminal and output terminal: 500VDC, 50MΩ min
Note: "x" in model names is to be replaced by a symbol which represents the terminal configuration (F: DIP/R: SMD) for actual model names.
Note: With nominal input/output voltage, maximum output current, and Ta=25° if not specified separately.
C,
Note: For 12V/±12V models, output voltage can be set to 15V/±15V by connecting the output adjustment terminal TRM to -Vout.
Note: For 12V model, output voltage can be set to 24V or 30V single output by making the COM terminal open.
(*1) With nominal input voltage, maximum output current, and Ta=25°
C.
(*2) The maximum output power value is between -40° and +50° For use in outside this temperature range, derating is needed.
C
C.
(*3) In balanced load for dual outputs ( "balanced load" means a condition where the +output and -output of load current are equal).
(*4) Output voltage includes input change, load change (balanced load), and temperature change.
(*5) In 50MHz, Ta=25°
C.
(*6) Output current restriction method. Automatically resumes when the causes are removed. Never operate the unit under output-shorted or overload conditions for over 30
seconds.
MODEL CC1R5-4803Sx-E CC1R5-4805Sx-E
CC1R5-4812Sx-E
CC1R5-4812Dx-E
ITEMS/UNITS
Nominal Voltage
V
DC48
Voltage Range
V
DC36-76
Input
Efficiency (typ)
(*1)
%
70
76
80
79
Current (typ)
(*1) A
0.039
0.041
0.039
0.040
Nominal Voltage
VDC
3.3
5
12
15
12
15
Maximum Current
A
0.400
0.300
0.125
0.100
0.060
0.050
Maximum Power
(*2) W
1.32
1.5
Maximum Line Regulation (Within input voltage range) mV
20
40
80
Maximum Load Regulation (0-100% load) (*3) mV
40
100
600
Output
Temperature Coefficient
80mV
200mV
300mV
(Ambient temperature–40° to +50°
C
C)
Max Power Total Regulation (max) (*4)
%
3
5
Maximum Ripple & Noise (typ/max) (*5) mVp-p
40/120
30/120
VDC
3.15-3.6
4.75-6.0
11.4-15.0
11.4- 15.0
Voltage Adjustable Range
Over Current Protection
(*6)
Available
Not available
Function Over Voltage Protection
Remote ON/OFF Control
Available
℃
-40 to +85
Operating Ambient Temperature
℃
-40 to +85
Storage Ambient Temperature
%
RH
5-95 (the conditions of maximum 38° in wet bulb temperature and non-condensation should be ensured.)
C
Operating Ambient Humidity
Environment
%
RH
5-95 (the conditions of maximum 38° in wet bulb temperature and non-condensation should be ensured.)
C
Storage Ambient Humidity
Vibration
10-55Hz, 15 minutes sweep and 1.52mm total amplitude, 3 directions, 2h for each
Shock
980m/s² (100G), 6ms, 6 directions, 3 times for each, in non-operation
Withstand Voltage
Between input terminal and case, between input terminal and output terminal, and between output terminal and case: 500VAC (for 1 minute)
Isolation
Between input terminal and output terminal: 500VDC, 50MΩ min
Note: "x" in model names is to be replaced by a symbol which represents the terminal configuration (F: DIP/R: SMD) for actual model names.
Note: With nominal input/output voltage, maximum output current, and Ta=25° if not specified separately.
C,
Note: For 12V/±12V models, output voltage can be set to 15V/±15V by connecting the output adjustment terminal TRM to -Vout.
Note: For 12V model, output voltage can be set to 24V or 30V single output by making the COM terminal open.
(*1) With nominal input voltage, maximum output current, and Ta=25°
C.
(*2) The maximum output power value is between -40° and +50° For use in outside this temperature range, derating is needed.
C
C.
(*3) In balanced load for dual outputs ( "balanced load" means a condition where the +output and -output of load current are equal).
(*4) Output voltage includes input change, load change (balanced load), and temperature change.
(*5) In 50MHz, Ta=25°
C.
(*6) Output current restriction method. Automatically resumes when the causes are removed. Never operate the unit under output-shorted or overload conditions for over 30
seconds.
・All specifications are subject to change without notice.
CC1R5-E
Outline Drawing
CC1R5-xxxxxF-E (DIP type)
Shape/Dimensions
8.5max.
4
16.6±0.2
Recommended measurements for
mounting board
4.0
14.605
2.92
Outer shape of
product
16.51
2.54
(3.22)
0.5
1.905
a
3
2
7.62
12.7
1.905
b
4
5
a
2.7
13.08
12.7
7-ø1.0 (land diameter ø2.0)
2-ø1.5 (land diameter ø2.5)
3.5
2.54 5.08 2.54
16.51
1.0
b
0.5
7-0.3×0.6
1
b
6
7
a
2.7
CC1R5-xxxxxR-E (SMD type)
Shape/Dimensions
8.8max.
(3.22)
Unit: mm
Allowable tolerance is ±0.5 if not specified separately.
16.6±0.2
Recommended measurements for
mounting board
4.0
(3.22)
Outer shape of
product
2.54 5.08 2.54
3.2
3.5
t=0.3
10.16
7.62
t=0.3
(13.38)
16.51
Coplanarity: 0.1 or lower
1.8
19.81
1.8
2.54
(3.22)
3.2
15.6
22.0
2
7.62
5
7-0.3×0.6
6
7
(3.22)
1
2.54 5.08 2.54
3
4
Unit: mm
Allowable tolerance is ±0.5 if not specified separately.
Connection diagram
CC1R5-xxxxSx-E
+Vin
1
7
6
RC
–Vin
5
2
3
+Vout
Terminal connections
No.1
No.2
No.3
No.4
No.5
No.6
No.7
+Vin
RC
–Vin
NC
–Vout
TRM
+Vout
Load
CC1R5-xxxxDx-E
+Vin
1
7
6
RC
–Vin
5
2
3
4
+Vout
Terminal connections
No.1
No.2
No.3
No.4
No.5
No.6
No.7
+Vin
RC
–Vin
–Vout
Common out
TRM
+Vout
Load
TRM
–Vout
TRM
COM
–Vout
4 NC
Derating Curve
100
Output power (%)
80
60
40
20
Natural air cooling
a
b
a:
0.5m/s
(100LFM)
b:
1m/s
(200LFM)
Ambient temperature (°
C)
0
-40 -20 0 20 40 60 80 100
Output power derating by ambient temperature
(common specification)
・All specifications are subject to change without notice.
2.54 5.08 2.54
10.16
7.62
1.2
Load
(DIP/SMD)
CC3-E
CC3-E Specifications
MODEL CC3-0503Sx-E
CC3-0505Sx-E
CC3-0512Sx-E
CC3-0512Dx-E
ITEMS/UNITS
Nominal Voltage
V
DC5.0
Voltage Range
V
DC4.5-9.0
Input
Efficiency (typ)
(*1)
%
73
77
82
81
Current (typ)
(*1) A
0.723
0.779
0.732
0.741
VDC
3.3
5
12
15
12
15
Nominal Voltage
Maximum Current
A
0.800
0.600
0.250
0.200
0.125
0.100
Maximum Power
(*2)
2.64
3
Maximum Line Regulation(Within input voltage range) mV
20
40
80
Maximum Load Regulation (0-100% load) (*3) mV
40
100
600
Output
Temperature Coefficient
80mV
200mV
300mV
(Ambient temperature -40℃ to +50℃ )
Max Power Total Regulation (max) (*4)
%
3
5
Maximum Ripple & Noise (typ/max) (*5) mVp-p
40/120
30/120
Voltage Adjustable Range
VDC
3.15-3.6
4.75-6.0
11.4-15.0
11.4- 15.0
Over Current Protection
(*6)
Available
Function Over Voltage Protection
Not available
Remote ON/OFF Control
Available
Operating Ambient Temperature
℃
-40 to +85
Storage Ambient Temperature
℃
-40 to +85
Operating Ambient Humidity
%
RH
5-95 (the conditions of maximum 38℃ in wet bulb temperature and non-condensation should be ensured.)
Environment
Storage Ambient Humidity
%
RH
5-95 (the conditions of maximum 38℃ in wet bulb temperature and non-condensation should be ensured.)
10-55Hz, 15 minutes sweep and 1.52mm total amplitude, X/Y/Z 3 directions, 2h for each
Vibration
Shock
980m/s² (100G), 6ms, 6 directions, 3 times for each, in non-operation
Withstand Voltage
Between input terminal and case, between input terminal and output terminal, and between output terminal and case: 500VAC (for 1 minute)
Isolation
Isolation Resistance
Between input terminal and output terminal: 500VDC, 50MΩ min
Note: "x" in model names is to be replaced by a symbol which represents the terminal configuration (F: DIP/R: SMD) for actual model names.
Note: With nominal input/output voltage, maximum output current, and Ta=25° if not specified separately.
C,
Note: For 12V/±12V models, output voltage can be set to 15V/±15V by connecting the output adjustment terminal TRM to -Vout.
Note: For 12V model, output voltage can be set to 24V or 30V single output by making the COM terminal open.
(*1) With nominal input voltage, maximum output current, and Ta=25°
C.
(*2) The maximum output power value is between -40° and +50° For use in outside this temperature range, derating is needed.
C
C.
(*3) In balanced load for dual outputs ( "balanced load" means a condition where the +output and -output of load current are equal).
(*4) Output voltage includes input change, load change (balanced load), and temperature change.
(*5) In 50MHz, Ta=25°
C.
(*6) Output current restriction method. Automatically resumes when the causes are removed. Never operate the unit under output-shorted or overload conditions for over 30
seconds.
MODEL CC3-1203Sx-E
CC3-1205Sx-E
CC3-1212Sx-E
CC3-1212Dx-E
ITEMS/UNITS
Nominal Voltage
V
DC12
Voltage Range
V
DC9.0-18
Input
Efficiency (typ)
(*1)
%
74
79
82
81
Current (typ)
(*1) A
0.297
0.316
0.305
0.309
Nominal Voltage
VDC
3.3
5
12
15
12
15
Maximum Current
A
0.800
0.600
0.250
0.200
0.125
0.100
Maximum Power
(*2) W
2.64
3
Maximum Line Regulation(Within input voltage range) mV
20
40
80
Maximum Load Regulation (0-100% load) (*3) mV
40
100
600
Output
Temperature Coefficient
80mV
200mV
300mV
(Ambient temperature -40℃ to +50℃ )
Max Power Total Regulation (max) (*4)
%
3
5
Maximum Ripple & Noise (typ/max) (*5) mVp-p
40/120
30/120
VDC
3.15-3.6
4.75-6.0
11.4-15.0
11.4- 15.0
Voltage Adjustable Range
Over Current Protection
(*6)
Available
Not available
Function Over Voltage Protection
Remote ON/OFF Control
Available
℃
-40 to +85
Operating Ambient Temperature
℃
-40 to +85
Storage Ambient Temperature
%
RH
5-95 (the conditions of maximum 38° in wet bulb temperature and non-condensation should be ensured.)
C
Operating Ambient Humidity
Environment
%
RH
5-95 (the conditions of maximum 38° in wet bulb temperature and non-condensation should be ensured.)
C
Storage Ambient Humidity
Vibration
10-55Hz, 15 minutes sweep and 1.52mm total amplitude, X/Y/Z 3 directions, 2h for each
Shock
980m/s² (100G), 6ms, 6 directions, 3 times for each, in non-operation
Withstand Voltage
Between input terminal and case, between input terminal and output terminal, and between output terminal and case: 500VAC (for 1 minute)
Isolation
Isolation Resistance
Between input terminal and output terminal: 500VDC, 50MΩ min
Note: "x" in model names is to be replaced by a symbol which represents the terminal configuration (F: DIP/R: SMD) for actual model names.
Note: With nominal input/output voltage, maximum output current, and Ta=25° if not specified separately.
C,
Note: For 12V/±12V models, output voltage can be set to 15V/±15V by connecting the output adjustment terminal TRM to -Vout.
Note: For 12V model, output voltage can be set to 24V or 30V single output by making the COM terminal open.
(*1) With nominal input voltage, maximum output current, and Ta=25°
C.
(*2) The maximum output power value is between -40° and +50° For use in outside this temperature range, derating is needed.
C
C.
(*3) In balanced load for dual outputs ( "balanced load" means a condition where the +output and -output of load current are equal).
(*4) Output voltage includes input change, load change (balanced load), and temperature change.
(*5) In 50MHz, Ta=25°
C.
(*6) Output current restriction method. Automatically resumes when the causes are removed. Never operate the unit under output-shorted or overload conditions for over 30
seconds.
・All specifications are subject to change without notice.
What low-voltage 485 communication chip do you use for 430?Which is better, MAX3485 or SN75 series? What is the price?What is the specific difference between SN75HVD10, 11, and 12?...
[i=s]This post was last edited by qinkaiabc on 2014-1-2 19:51[/i] [align=left][Energia development environment] MSP430 LAUNCHPAD study notes 7--4-bit drive 1602 LCD display[/align][align=left]Material...
What you said makes sense. Many people may have read this information, but I still put it here for your convenience. I have learned 51 before, but not avr. There are too few things in 51... I don't ev...
Although the performance of digital signal processors (DSPs) is getting stronger and stronger, and the functions of DSP-based embedded systems are increasing, the processing capacity of a single DSP e...
In public places such as schools, government agencies, factories and mines, as well as public corridors in residential areas, the phenomenon of long-burning lights is very common, which causes a h...[Details]
Instrument stepper motor
The stepper motor is an open-loop control element that converts electrical pulse signals into angular displacement or linear displacement. In the case of non...[Details]
1 Introduction
Building Automation System (BAS) is a distributed monitoring system (DCS) designed according to distributed information and control theory. It is the result of the mutual de...[Details]
Since the No. 4 blast furnace of Handan Iron and Steel was put into operation in 1993, its external equipment has been seriously aged, and the original PLC control system TDC3000 of the hot blast furn...[Details]
1 Introduction
With the development of control, computer, communication, network technology, etc., a new control technology, namely fieldbus, has emerged in the field of industrial control...[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]
Since the late 1990s, with the demand for higher system efficiency and lower power consumption, the technological update of telecommunications and data communication equipment has promoted the deve...[Details]
System Overview
The system consists of a signal preprocessing circuit, a single-chip computer AT89C2051, a systematic LED display module, a serial port data storage circuit and system software...[Details]
One in five car failures are caused by batteries, a problem that will become more serious in the coming years as electric-by-wire, start/stop engine management and hybrid (electric/gas) vehicles be...[Details]
introduction
When it comes to the production of mobile phone lithium-ion batteries, the first thing that comes to mind is Japan's industrialized mechanical assembly line, NOKIO, MOTOLROLA's st...[Details]
Rated capacity refers to the maximum output power of the UPS (the product of voltage V and current A).
Usually, the UPS power supplies sold on the market are marked with "W" (watt) for smaller...[Details]
DCDC means DC to DC (conversion of different DC power values). Anything that meets this definition can be called a DCDC converter. Specifically, it means converting the input DC into AC through a s...[Details]
The power consumption of a switching power supply includes fixed losses caused by parasitic resistances such as semiconductor switches, magnetic components, and wiring, as well as switching losses ...[Details]
This paper describes the design method of electronic multifunctional watt-hour meter, the key technology of hardware design and the software design process. Taking NEC's μPD78F0338 microcontroller ...[Details]
Preface
DS18B2 is generally used in conjunction with a single-chip microcomputer, and there are few reports on
the interface between
DSP
and DS18B20. Therefore, this article introdu...[Details]
Microcontroller MCU
京公网安备 11010802033920号
EEWORLD
