(1/21)
002-05 / 20061129 / ea335_cc_e.fm
• All specifications are subject to change without notice.
DC to DC Converters
Insulated Type, Ultra Compact Size, 1.5 to 25W Output, 5-year Warranty Period
CC-E Series
FEATURES
• Compact size(almost half floor space of existing product).
• No tantalum capacitor and no aluminum electrolytic capacitor
are used.
• All series are equipped with a built-in remote control function
(except for SIP).
• Output voltage tolerance ±3%(under 10W, at single output).
• Light weight(no potting).
• It is a product conforming to RoHS directive.
• These are PWB halogen-free pc board.
• Both mountings of DIP type and SMD type are available.
• UL60950-1, C-UL CSA 60950-1 and EN60950-1 approved
(partial approved).
PART NUMBERS AND RATINGS
∗1An "x" within the product name is to be replaced by the symbol representing the terminal structure (F: DIP / R: SMD / S: SIP).
Note that the SIP type is limited to 3W.
∗2The output voltage can be set to 15V, ±15V, by connecting the 12Vout, ±12V TRM (output variable) to –Vout.
∗324V single output is possible by opening the ±12Vout COM terminal and connecting the load to +Vout, –Vout. Also, 30V single output is possible when
connecting the TRM terminal with –Vout under the same conditions.
PRODUCT IDENTIFICATIONS
Conformity to RoHS Directive
Output
power
Input
voltage
Output voltage
3.3V 5V 12V(15V∗2)±12V(15V
∗2) or 24V, 30V∗3
1.5W
5V CC1R5-0503Sx∗1-E CC1R5-0505Sx-E CC1R5-0512Sx-E CC1R5-0512Dx-E
12V CC1R5-1203Sx-E CC1R5-1205Sx-E CC1R5-1212Sx-E CC1R5-1212Dx-E
24V CC1R5-2403Sx-E CC1R5-2405Sx-E CC1R5-2412Sx-E CC1R5-2412Dx-E
48V CC1R5-4803Sx-E CC1R5-4805Sx-E CC1R5-4812Sx-E CC1R5-4812Dx-E
3W
5V CC3-0503Sx-E CC3-0505Sx-E CC3-0512Sx-E CC3-0512Dx-E
12V CC3-1203Sx-E CC3-1205Sx-E CC3-1212Sx-E CC3-1212Dx-E
24V CC3-2403Sx-E CC3-2405Sx-E CC3-2412Sx-E CC3-2412Dx-E
48V CC3-4803Sx-E CC3-4805Sx-E CC3-4812Sx-E CC3-4812Dx-E
6W
5V CC6-0503Sx-E CC6-0505Sx-E CC6-0512Sx-E CC6-0512Dx-E
12V CC6-1203Sx-E CC6-1205Sx-E CC6-1212Sx-E CC6-1212Dx-E
24V CC6-2403Sx-E CC6-2405Sx-E CC6-2412Sx-E CC6-2412Dx-E
48V CC6-4803Sx-E CC6-4805Sx-E CC6-4812Sx-E CC6-4812Dx-E
10W
5V CC10-0503Sx-E CC10-0505Sx-E CC10-0512Sx-E CC10-0512Dx-E
12V CC10-1203Sx-E CC10-1205Sx-E CC10-1212Sx-E CC10-1212Dx-E
24V CC10-2403Sx-E CC10-2405Sx-E CC10-2412Sx-E CC10-2412Dx-E
48V CC10-4803Sx-E CC10-4805Sx-E CC10-4812Sx-E CC10-4812Dx-E
15W 24V CC15-2403Sx-E CC15-2405Sx-E
25W 24V CC25-2403Sx-E CC25-2405Sx-E
CC3-0505SF-E
Form symbols
Output mode symbols
Output voltage
Input voltage
Output power
F: Horizontal DIP type
R: Horizontal SMD type
S: Vertical SIP type
S: Single output, D: Double output
03: 3.3V / 05: 5V / 12: 12V
05: 5V / 12: 12V / 24: 24V / 48: 48V
1R5: 1.5W / 3: 3W / 6:6W / 10: 10W / 15: 15W / 25: 25W
• Conformity to RoHS Directive: This means that, in conformity with EU Directive 2002/95/EC, lead, cadmium, mercury, hexavalent chromium, and specific
bromine-based flame retardants, PBB and PBDE, have not been used, except for exempted applications.
(2/21)
002-05 / 20061129 / ea335_cc_e.fm
• All specifications are subject to change without notice.
CC1R5 Type
ELECTRICAL CHARACTERISTICS
∗1An "x" within the product name is to be replaced by the symbol representing the terminal structure (F: DIP / R: SMD).
∗2Total output voltage is including input, load, and temperature regulation.
∗3When the condition is 2-output, it is the balance load (balance load means the condition when the load current of +output and –output is equal).
∗4Measurement bandwidth: 50MHz
∗5Typical input voltage, maximum output current.
∗62-output products may be used as 24 to 30V single output with COM. terminal open.
∗7TRM and –Vout are shorted.
•Trim range: 3.3Vout is 3.15 to 3.6V, 5Vout is 4.75 to 6V, 12Vout is 11.4 to 15V, ±12Vout is ±11.4 to ±15V (22.8 to 30V).
OUTPUT POWER - AMBIENT TEMPERATURE(DERATING) COMMON SPECIFICATIONS
Part No.
Input
voltage
(V)
Output
voltage∗2
(V)
Output
current
(mA)
Voltage stability Output ripple noise
voltage∗4
(mVp-p)
typ./max.
Efficiency∗5
(%)
Input-
output
insulation
Input
(mV)max.
Load∗3
(mV)max.
Temperature
(mV)max.
CC1R5-0503Sx∗1-E 4.5 to 9 3.3±3% 0 to 400 20 40 80 40/120 71
Withstand
voltage
AC.500V
1min
Resistance
DC.500V
50MΩ
min.
CC1R5-0505Sx-E 4.5 to 9 5±3% 0 to 300 20 40 80 40/120 77
CC1R5-0512Sx-E 4.5 to 9 12±3% 0 to 125 40 100 200 30/120 80
4.5 to 9 15±3%∗70 to 100 40 100 200 30/120 80
CC1R5-0512Dx-E∗64.5 to 9 ±12±5% ±0 to 60 80 600 300 30/120 79
4.5 to 9 ±15±5%∗7±0 to 50 80 600 300 30/120 79
CC1R5-1203Sx-E 9 to 18 3.3±3% 0 to 400 20 40 80 40/120 73
CC1R5-1205Sx-E 9 to 18 5±3% 0 to 300 20 40 80 40/120 78
CC1R5-1212Sx-E 9 to 18 12±3% 0 to 125 40 100 200 30/120 82
9 to 18 15±3%∗70 to 100 40 100 200 30/120 82
CC1R5-1212Dx-E∗69 to 18 ±12±5% ±0 to 60 80 600 300 30/120 81
9 to 18 ±15±5%∗7±0 to 50 80 600 300 30/120 81
CC1R5-2403Sx-E 18 to 36 3.3±3% 0 to 400 20 40 80 40/120 72
CC1R5-2405Sx-E 18 to 36 5±3% 0 to 300 20 40 80 40/120 77
CC1R5-2412Sx-E 18 to 36 12±3% 0 to 125 40 100 200 30/120 81
18 to 36 15±3%∗70 to 100 40 100 200 30/120 81
CC1R5-2412Dx-E∗618 to 36 ±12±5% ±0 to 60 80 600 300 30/120 79
18 to 36 ±15±5%∗7±0 to 50 80 600 300 30/120 79
CC1R5-4803Sx-E 36 to 76 3.3±3% 0 to 400 20 40 80 40/120 70
CC1R5-4805Sx-E 36 to 76 5±3% 0 to 300 20 40 80 40/120 76
CC1R5-4812Sx-E 36 to 76 12±3% 0 to 125 40 100 200 30/120 80
36 to 76 15±3%∗70 to 100 40 100 200 30/120 80
CC1R5-4812Dx-E∗636 to 76 ±12±5% ±0 to 60 80 600 300 30/120 79
36 to 76 ±15±5%∗7±0 to 50 80 600 300 30/120 79
Output power(%)
Ambient temperature(˚C)
–10–20–30–40 0 102030405060708090
20
40
60
80
100
0
Natural cooling
a
b
a: 0.5m/s(100LFM)
b: 1m/s(200LFM)
Overcurrent protection Output current limitation system, auto recovery
type
Operating temperature
range
–40 to +85°C[Derating is necessary when
operating environment temperature exceed 50°C]
Storage temperature
range –40 to +85°C
Humidity range 95(%)RH max.
[Maximum wet-bulb temperature: 38°C]
Vibration 10 to 55Hz, all amplitude 1.52mm, sweep time
15min[3 directions of X, Y, Z, each 2h]
Amplitude 980m/s2(100G) 6ms[6 directions, each 3 times]
Withstand voltage Eac Input to output, input to case, output to case:
500V, 1min
Insulation resistance Input to output, input to case, output to case:
50MΩ min.[DC.500V]
Safety standards UL60950-1, C-UL(CSA22.2 No.60950-1),
EN60950-1 certified
Weight 3.2g
(3/21)
002-05 / 20061129 / ea335_cc_e.fm
• All specifications are subject to change without notice.
CC1R5 Type
SHAPES AND DIMENSIONS
CC1R5-xxxxxF-E (DIP TYPE) RECOMMENDED PWB HOLE SIZE, LOCATION
[TOP VIEW]
CC1R5-xxxxxR-E (SMD TYPE) RECOMMENDED PWB HOLE SIZE, LOCATION
[TOP VIEW]
CONNECTIONS
CC1R5-xxxxSx-E CC1R5-xxxxDx-E
16.6±0.2
12.71.905 1.905
t=0.3
8.5max.3.5
(3.22)(3.22)
2.54
7.62
16.51
12.7
4.0
2.545.082.54
3
ab
2
1
7-0.3×0.6
ba
4
5
7
6
2.7
1.0
2.7
0.53.5
0.5
a
b
2-ø1.5
(Land diameter ø2.5)
2.545.082.54
14.605
7.62
10.16
13.08
2.92
16.51
Shape
7-ø1.0
(Land diameter ø2.0)
Dimensions in mm
Tolerance: ±0.5
Coplanarity 0.1max.
16.6±0.2
t=0.3
8.8max.
16.51
4.0
19.81
1.81.8
(3.22)(3.22)
2.54
7.62
2.545.082.54
3
2
1
4
5
7
6
7-0.3×0.6
2.545.082.54
7.62
10.16
(13.38)
(3.22)
22.0
3.2 3.215.6
1.2
Shape
Dimensions in mm
Tolerance: ±0.5
17
2
3
5
6
4NC
–Vout
+Vout
TRM
RC
+Vin
–Vin
Load
TERMINAL PIN
CONFIGUTATION
No.1 +Vin
No.2 RC
No.3 –Vin
No.4 NC
No.5 –Vout
No.6 TRM
No.7 +Vout
17
2
3
5
6
4
COM
–Vout
+Vout
TRM
RC
+Vin
–Vin
LoadLoad
TERMINAL PIN
CONFIGUTATION
No.1 +Vin
No.2 RC
No.3 –Vin
No.4 –Vout
No.5 Common out
No.6 TRM
No.7 +Vout
(4/21)
002-05 / 20061129 / ea335_cc_e.fm
• All specifications are subject to change without notice.
CC3 Type(DIP, SMD Types)
ELECTRICAL CHARACTERISTICS
∗1An "x" within the product name is to be replaced by the symbol representing the terminal structure (F: DIP / R: SMD).
∗2Total output voltage is including input, load, and temperature regulation.
∗3When the condition is 2-output, it is the balance load (balance load means the condition when the load current of +output and –output is equal).
∗4Measurement bandwidth: 50MHz
∗5Typical input voltage, maximum output current.
∗62-output products may be used as 24 to 30V single output with COM. terminal open.
∗7TRM and –Vout are shorted.
•Trim range: 3.3Vout is 3.15 to 3.6V, 5Vout is 4.75 to 6V, 12Vout is 11.4 to 15V, ±12Vout is ±11.4 to ±15V.
OUTPUT POWER - AMBIENT TEMPERATURE(DERATING) COMMON SPECIFICATIONS
Part No.
Input
voltage
(V)
Output
voltage∗2
(V)
Output
current
(mA)
Voltage stability Output ripple noise
voltage∗4
(mVp-p)
typ./max.
Efficiency∗5
(%)
Input-
output
insulation
Input
(mV)max.
Load∗3
(mV)max.
Temperature
(mV)max.
CC3-0503Sx∗1-E 4.5 to 9 3.3±3% 0 to 800 20 40 80 40/120 73
Withstand
voltage
AC.500V
1min
Resistance
DC.500V
50MΩ
min.
CC3-0505Sx-E 4.5 to 9 5±3% 0 to 600 20 40 80 40/120 77
CC3-0512Sx-E 4.5 to 9 12±3% 0 to 250 40 100 200 30/120 82
4.5 to 9 15±3%∗70 to 200 40 100 200 30/120 82
CC3-0512Dx-E∗64.5 to 9 ±12±5% ±0 to 125 80 600 300 30/120 81
4.5 to 9 ±15±5%∗7±0 to 100 80 600 300 30/120 81
CC3-1203Sx-E 9 to 18 3.3±3% 0 to 800 20 40 80 40/120 74
CC3-1205Sx-E 9 to 18 5±3% 0 to 600 20 40 80 40/120 79
CC3-1212Sx-E 9 to 18 12±3% 0 to 250 40 100 200 30/120 82
9 to 18 15±3%∗70 to 200 40 100 200 30/120 82
CC3-1212Dx-E∗69 to 18 ±12±5% ±0 to 125 80 600 300 30/120 81
9 to 18 ±15±5%∗7±0 to 100 80 600 300 30/120 81
CC3-2403Sx-E 18 to 36 3.3±3% 0 to 800 20 40 80 40/120 73
CC3-2405Sx-E 18 to 36 5±3% 0 to 600 20 40 80 40/120 78
CC3-2412Sx-E 18 to 36 12±3% 0 to 250 40 100 200 30/120 82
18 to 36 15±3%∗70 to 200 40 100 200 30/120 82
CC3-2412Dx-E∗618 to 36 ±12±5% ±0 to 125 80 600 300 30/120 81
18 to 36 ±15±5%∗7±0 to 100 80 600 300 30/120 81
CC3-4803Sx-E 36 to 76 3.3±3% 0 to 800 20 40 80 40/120 73
CC3-4805Sx-E 36 to 76 5±3% 0 to 600 20 40 80 40/120 79
CC3-4812Sx-E 36 to 76 12±3% 0 to 250 40 100 200 30/120 81
36 to 76 15±3%∗70 to 200 40 100 200 30/120 81
CC3-4812Dx-E∗636 to 76 ±12±5% ±0 to 125 80 600 300 30/120 80
36 to 76 ±15±5%∗7±0 to 100 80 600 300 30/120 80
Output power(%)
Ambient temperature(˚C)
–10–20–30–40 0 102030405060708090
20
40
60
80
100
0
a
b
a: 0.5m/s(100LFM)
b: 1m/s(200LFM)
Natural cooling
Overcurrent protection Output current limitation system, auto recovery
type
Operating temperature
range
–40 to +85°C[Derating is necessary when
operating environment temperature exceed 50°C]
Storage temperature
range –40 to +85°C
Humidity range 95(%)RH max.
[Maximum wet-bulb temperature: 38°C]
Amplitude 10 to 55Hz, all amplitude 1.52mm, sweep time
15min[3 directions of X, Y, Z, each 2h]
Vibration 980m/s2(100G) 6ms[6 directions, each 3 times]
Withstand voltage Eac Input to output, input to case, output to case:
500V, 1min
Insulation resistance Input to output, input to case, output to case:
50MΩ min.[DC.500V]
Safety standards UL60950-1, C-UL(CSA22.2 No.60950-1),
EN60950-1 certified
Weight 4.5g
(5/21)
002-05 / 20061129 / ea335_cc_e.fm
• All specifications are subject to change without notice.
CC3 Ty p e ( S I P Ty p e )
ELECTRICAL CHARACTERISTICS
∗1Total output voltage is including input, load, and temperature regulation.
∗2When the condition is 2-output, it is the balance load (balance load means the condition when the load current of +output and –output is equal).
∗3Measurement bandwidth: 50MHz
∗4Typical input voltage, maximum output current.
∗52-output products may be used as 24 to 30V single output with COM. terminal open.
∗6TRM and –Vout are shorted.
•Trim range: 3.3Vout is 3.15 to 3.67V, 5Vout is 4.75 to 6V, 12Vout is 11.4 to 15V, ±12Vout is ±11.4 to ±15V.
OUTPUT POWER - AMBIENT TEMPERATURE(DERATING) COMMON SPECIFICATIONS
Part No.
Input
voltage
(V)
Output
voltage∗1
(V)
Output
current
(mA)
Voltage stability Output ripple noise
voltage∗3
(mVp-p)
typ./max.
Efficiency∗4
(%)
Input-
output
insulation
Input
(mV)max.
Load∗2
(mV)max.
Temperature
(mV)max.
CC3-0503SS-E 4.5 to 9 3.3±3% 0 to 800 20 40 80 40/120 73
Withstand
voltage
AC.500V
1min
Resistance
DC.500V
50MΩ
min.
CC3-0505SS-E 4.5 to 9 5±3% 0 to 600 20 40 80 40/120 77
CC3-0512SS-E 4.5 to 9 12±3% 0 to 250 40 100 200 30/120 82
4.5 to 9 15±3%∗60 to 200 40 100 200 30/120 82
CC3-0512DS-E∗54.5 to 9 ±12±5% ±0 to 125 80 600 300 30/120 81
4.5 to 9 ±15±5%∗6±0 to 100 80 600 300 30/120 81
CC3-1203SS-E 9 to 18 3.3±3% 0 to 800 20 40 80 40/120 73
CC3-1205SS-E 9 to 18 5±3% 0 to 600 20 40 80 40/120 79
CC3-1212SS-E 9 to 18 12±3% 0 to 250 40 100 200 30/120 82
9 to 18 15±3%∗60 to 200 40 100 200 30/120 82
CC3-1212DS-E∗59 to 18 ±12±5% ±0 to 125 80 600 300 30/120 82
9 to 18 ±15±5%∗6±0 to 100 80 600 300 30/120 82
CC3-2403SS-E 18 to 36 3.3±3% 0 to 800 20 40 80 40/120 73
CC3-2405SS-E 18 to 36 5±3% 0 to 600 20 40 80 40/120 78
CC3-2412SS-E 18 to 36 12±3% 0 to 250 40 100 200 30/120 82
18 to 36 15±3%∗60 to 200 40 100 200 30/120 82
CC3-2412DS-E∗518 to 36 ±12±5% ±0 to 125 80 600 300 30/120 81
18 to 36 ±15±5%∗6±0 to 100 80 600 300 30/120 81
CC3-4803SS-E 36 to 76 3.3±3% 0 to 800 20 40 80 40/120 73
CC3-4805SS-E 36 to 76 5±3% 0 to 600 20 40 80 40/120 79
CC3-4812SS-E 36 to 76 12±3% 0 to 250 40 100 200 30/120 82
36 to 76 15±3%∗60 to 200 40 100 200 30/120 82
CC3-4812DS-E∗536 to 76 ±12±5% ±0 to 125 80 600 300 30/120 82
36 to 76 ±15±5%∗6±0 to 100 80 600 300 30/120 82
Output power(%)
Ambient temperature(˚C)
–10–20–30–40 0 102030405060708090
20
40
60
80
100
0
a
b
a: 0.5m/s(100LFM)
b: 1m/s(200LFM)
Natural cooling
Overcurrent protection Output current limitation system, auto recovery
type
Operating temperature
range
–40 to +85°C[Derating is necessary when
operating environment temperature exceed 50°C]
Storage temperature
range –40 to +85°C
Humidity range 95(%)RH max.
[Maximum wet-bulb temperature: 38°C]
Amplitude 10 to 55Hz, all amplitude 1.52mm, sweep time
15min[3 directions of X, Y, Z, each 2h]
Vibration 980m/s2(100G) 6ms[6 directions, each 3 times]
Withstand voltage Eac Input to output, input to case, output to case:
500V, 1min
Insulation resistance Input to output, input to case, output to case:
50MΩ min.[DC.500V]
Safety standards UL60950-1, C-UL(CSA22.2 No.60950-1),
EN60950-1 certified is applying partially.
Weight 7.0g
(6/21)
002-05 / 20061129 / ea335_cc_e.fm
• All specifications are subject to change without notice.
CC3 Type(DIP, SMD Types)
SHAPES AND DIMENSIONS
CC3-xxxxxF-E (DIP TYPE) RECOMMENDED PWB HOLE SIZE, LOCATION
[TOP VIEW]
CC3-xxxxxR-E (SMD TYPE) RECOMMENDED PWB HOLE SIZE, LOCATION
[TOP VIEW]
CONNECTIONS
CC3-xxxxSx-E CC3-xxxxDx-E
17.78 2.7
2.54 2.54
(3.22)(3.22)
2.54
7.62
2.545.082.54
3
ab
2
1
7-0.3×0.6
ba
4
5
7
6
1.0
2.7
0.53.5
0.5
a
b
8.5max.3.5
22.86
17.78
16.6±0.2
t=0.3
4.0
2.545.082.54
20.32
7.62
10.16
13.08
2.92
22.86
2-ø1.5(Land diameter ø2.5)
7-ø1.0(Land diameter ø2.0)
Shape
Dimensions in mm
Tolerance: ±0.5
26.16
1.8 1.8
(3.22)(3.22)
2.54
7.62
2.545.082.54
3
2
1
7-0.3×0.6
4
5
7
6
8.8max.
22.86
16.6±0.2
t=0.3
4.0
Coplanarity 0.1max.
Dimensions in mm
Tolerance: ±0.5
2.545.082.54
7.62
10.16
(13.38)
(3.22)
28.4
3.2 22.0 3.2
1.2
Shape
17
2
3
5
6
4NC
–Vout
+Vout
TRM
RC
+Vin
–Vin
Load
TERMINAL PIN
CONFIGUTATION
No.1 +Vin
No.2 RC
No.3 –Vin
No.4 NC
No.5 –Vout
No.6 TRM
No.7 +Vout
17
2
3
5
6
4
COM
–Vout
+Vout
TRM
RC
+Vin
–Vin
LoadLoad
TERMINAL PIN
CONFIGUTATION
No.1 +Vin
No.2 RC
No.3 –Vin
No.4 –Vout
No.5 Common out
No.6 TRM
No.7 +Vout
(7/21)
002-05 / 20061129 / ea335_cc_e.fm
• All specifications are subject to change without notice.
CC3 Ty p e ( S I P Ty p e )
SHAPES AND DIMENSIONS
CC3-xxxxxS-E (SIP TYPE)
CONNECTIONS
CC3-xxxxSS-E CC3-xxxxDS-E
The output voltage can be set to 15V, ±15V, by connecting the output variable
terminal TRM of the 12Vout, ±12V output model to –Vout.
24V single output is possible by opening the ±12Vout COM terminal and
connecting the load to +Vout, –Vout. Also, 30V single output is possible when
connecting the TRM terminal with –Vout under the same conditions.
2.47 P P P P 2P P P P P 6
3.5 (0.5)
4.1
(0.5)
17.9
4
17.78 5.01
2.47
22.86
1(t=0.3)
a
0.5
P=2.54
9.2
9.2
27.8
a
12345 78910
SMD location
17.78
2.47 22.86 2.47
27.8
PPPP 2P
P=2.54
PPP
6.0
9.2
9-ø0.8(Land diameter ø2.0)
2-ø1.5(Land diameter ø2.5)
Dimensions in mm
Tolerance: ±0.5
RECOMMENDED PWB HOLE SIZE, LOCATION
[TOP VIEW]
+Vin
+Vout
TRM
–Vin
–Vin
+Vin
–Vout
Load
12345 78910
TERMINAL PIN
CONFIGUTATION
No.1 +Vout
No.2 NC
No.3 NC
No.4 –Vout
No.5 TRM
No.6 NC
No.7 –Vin
No.8 –Vin
No.9 +Vin
No.10 +Vin
+Vin
+Vout
COM
COM
TRM
–Vin
–Vout
Load Load
12345 78910
–Vin
+Vin
TERMINAL PIN
CONFIGUTATION
No.1 +Vout
No.2 COM
No.3 COM
No.4 –Vout
No.5 TRM
No.6 NC
No.7 –Vin
No.8 –Vin
No.9 +Vin
No.10 +Vin
(8/21)
002-05 / 20061129 / ea335_cc_e.fm
• All specifications are subject to change without notice.
CC6 Type
ELECTRICAL CHARACTERISTICS
∗1An "x" within the product name is to be replaced by the symbol representing the terminal structure (F: DIP / R: SMD).
∗2Total output voltage is including input, load, and temperature regulation.
∗3When the condition is 2-output, it is the balance load (balance load means the condition when the load current of +output and –output is equal).
∗4Measurement bandwidth: 50MHz
∗5Typical input voltage, maximum output current
∗62-output products may be used as 24 to 30V single output with COM. terminal open.
∗7TRM and –Vout are shorted.
•Trim range: 3.3Vout is 3.15 to 3.6V, 5Vout is 4.75 to 6V, 12Vout is 11.4 to 15V, ±12Vout is ±11.4 to ±15V.
OUTPUT POWER - AMBIENT TEMPERATURE(DERATING) COMMON SPECIFICATIONS
Part No.
Input
voltage
(V)
Output
voltage∗2
(V)
Output
current
(mA)
Voltage stability Output ripple noise
voltage∗4
(mVp-p)
typ./max.
Efficiency∗5
(%)
Input-
output
insulation
Input
(mV)max.
Load∗3
(mV)max.
Temperature
(mV)max.
CC6-0503Sx∗1-E 4.5 to 9 3.3±3% 0 to 1200 20 40 80 40/120 76
Withstand
voltage
AC.500V
1min
Resistance
DC.500V
50MΩ
min.
CC6-0505Sx-E 4.5 to 9 5±3% 0 to 1000 20 40 80 40/120 79
CC6-0512Sx-E 4.5 to 9 12±3% 0 to 500 40 100 200 30/120 82
4.5 to 9 15±3%∗70 to 400 40 100 200 30/120 82
CC6-0512Dx-E∗64.5 to 9 ±12±5% ±0 to 250 80 600 300 30/120 82
4.5 to 9 ±15±5%∗7±0 to 200 80 600 300 30/120 82
CC6-1203Sx-E 9 to 18 3.3±3% 0 to 1200 20 40 80 40/120 78
CC6-1205Sx-E 9 to 18 5±3% 0 to 1200 20 40 80 40/120 82
CC6-1212Sx-E 9 to 18 12±3% 0 to 500 40 100 200 30/120 85
9 to 18 15±3%∗70 to 400 40 100 200 30/120 85
CC6-1212Dx-E∗69 to 18 ±12±5% ±0 to 250 80 600 300 30/120 85
9 to 18 ±15±5%∗7±0 to 200 80 600 300 30/120 85
CC6-2403Sx-E 18 to 36 3.3±3% 0 to 1200 20 40 80 40/120 77
CC6-2405Sx-E 18 to 36 5±3% 0 to 1200 20 40 80 40/120 81
CC6-2412Sx-E 18 to 36 12±3% 0 to 500 40 100 200 30/120 87
18 to 36 15±3%∗70 to 400 40 100 200 30/120 87
CC6-2412Dx-E∗618 to 36 ±12±5% ±0 to 250 80 600 300 30/120 86
18 to 36 ±15±5%∗7±0 to 200 80 600 300 30/120 86
CC6-4803Sx-E 36 to 76 3.3±3% 0 to 1200 20 40 80 40/120 77
CC6-4805Sx-E 36 to 76 5±3% 0 to 1200 20 40 80 40/120 81
CC6-4812Sx-E 36 to 76 12±3% 0 to 500 40 100 200 30/120 86
36 to 76 15±3%∗70 to 400 40 100 200 30/120 86
CC6-4812Dx-E∗636 to 76 ±12±5% ±0 to 250 80 600 300 30/120 86
36 to 76 ±15±5%∗7±0 to 200 80 600 300 30/120 86
Output power(%)
Ambient temperature(˚C)
–10–20–30–40 0 102030405060708090
20
40
60
80
100
0
a
b
a: 0.5m/s(100LFM)
b: 1m/s(200LFM)
Natural cooling
Overcurrent protection Output current limitation system, auto recovery
type
Operating temperature
range
–40 to +85°C[Derating is necessary when
operating environment temperature exceed 50°C]
Storage temperature
range –40 to +85°C
Humidity range 95(%)RH max.
[Maximum wet-bulb temperature: 38°C]
Amplitude 10 to 55Hz, all amplitude 1.52mm, sweep time
15min[3 directions of X, Y, Z, each 2h]
Vibration 980m/s2(100G) 6ms[6 directions, each 3 times]
Withstand voltage Eac Input to output, input to case, output to case:
500V, 1min
Insulation resistance Input to output, input to case, output to case:
50MΩ min.[DC.500V]
Safety standards UL60950-1, C-UL(CSA22.2 No.60950-1),
EN60950-1 certified
Weight 5.8g
(9/21)
002-05 / 20061129 / ea335_cc_e.fm
• All specifications are subject to change without notice.
CC6 Type
SHAPES AND DIMENSIONS
CC6-xxxxxF-E (DIP TYPE) RECOMMENDED PWB HOLE SIZE, LOCATION
[TOP VIEW]
CC6-xxxxxR-E (SMD TYPE) RECOMMENDED PWB HOLE SIZE, LOCATION
[TOP VIEW]
CONNECTIONS
CC6-xxxxSx-E CC6-xxxxDx-E
8.5max.3.5
22.86
17.78
21.1±0.2
t=0.3
4.0
2.54 2.54
(2.93)
5.08
(2.93)10.16
5.085.085.08
3
ab
2
1
7-0.3×0.6
ba
4
5
7
6
2.7
1.0
0.53.5
b
2.7
0.5
a
5.085.085.08
20.32
10.16
15.24
17.87
2.63
22.86
2-ø1.5(Land diameter ø2.5)
7-ø1.0(Land diameter ø2.0)
Shape
Dimensions in mm
Tolerance: ±0.5
8.8max.
22.86
21.1±0.2
t=0.3
4.0
26.16
1.8 1.8
(2.93)(2.93)10.16 5.08
5.085.085.08
3
2
1
7-0.3×0.6
4
5
7
6
Coplanarity 0.1max.
Dimensions in mm
Tolerance: ±0.5
5.085.08
10.16
15.24
(18.17)
(2.93)
5.08
28.4
3.2 22.0 3.2
1.2
Shape
17
2
3
5
6
4NC
–Vout
+Vout
TRM
RC
+Vin
–Vin
Load
TERMINAL PIN
CONFIGUTATION
No.1 +Vin
No.2 RC
No.3 –Vin
No.4 NC
No.5 –Vout
No.6 TRM
No.7 +Vout
17
2
3
5
6
4
COM
–Vout
+Vout
TRM
RC
+Vin
–Vin
LoadLoad
TERMINAL PIN
CONFIGUTATION
No.1 +Vin
No.2 RC
No.3 –Vin
No.4 –Vout
No.5 Common out
No.6 TRM
No.7 +Vout
(10/21)
002-05 / 20061129 / ea335_cc_e.fm
• All specifications are subject to change without notice.
CC10 Type
ELECTRICAL CHARACTERISTICS
∗1An "x" within the product name is to be replaced by the symbol representing the terminal structure (F: DIP / R: SMD).
∗2Total output voltage is including input, load, and temperature regulation.
∗3When the condition is 2-output, it is the balance load (balance load means the condition when the load current of +output and –output is equal).
∗4Measurement bandwidth: 50MHz
∗5Typical input voltage, maximum output current
∗62-output products may be used as 24 to 30V single output with COM. terminal open.
∗7TRM and –Vout are shorted.
•Trim range: 3.3Vout is 3.15 to 3.6V, 5Vout is 4.75 to 6V, 12Vout is 11.4 to 15V, ±12Vout is ±11.4 to ±15V.
OUTPUT POWER - AMBIENT TEMPERATURE(DERATING) COMMON SPECIFICATIONS
Part No.
Input
voltage
(V)
Output
voltage∗2
(V)
Output
current
(mA)
Voltage stability Output ripple noise
voltage∗4
(mVp-p)
typ./max.
Efficiency∗5
(%)
Input-
output
insulation
Input
(mV)max.
Load∗3
(mV)max.
Temperature
(mV)max.
CC10-0503Sx∗1-E 4.5 to 9 3.3±3% 0 to 2500 20 40 80 40/120 84
Withstand
voltage
AC.500V
1min
Resistance
DC.500V
50MΩ
min.
CC10-0505Sx-E 4.5 to 9 5±3% 0 to 2000 20 40 80 40/120 84
CC10-0512Sx-E 4.5 to 9 12±3% 0 to 800 40 100 200 30/120 84
4.5 to 9 15±3%∗70 to 640 40 100 200 30/120 84
CC10-0512Dx-E∗64.5 to 9 ±12±5% ±0 to 400 80 600 300 30/120 83
4.5 to 9 ±15±5%∗7±0 to 320 80 600 300 30/120 83
CC10-1203Sx-E 9 to 18 3.3±3% 0 to 2500 20 40 80 40/120 84
CC10-1205Sx-E 9 to 18 5±3% 0 to 2000 20 40 80 40/120 86
CC10-1212Sx-E 9 to 18 12±3% 0 to 1000 40 100 200 30/120 88
9 to 18 15±3%∗70 to 800 40 100 200 30/120 88
CC10-1212Dx-E∗69 to 18 ±12±5% ±0 to 450 80 600 300 30/120 86
9 to 18 ±15±5%∗7±0 to 360 80 600 300 30/120 86
CC10-2403Sx-E 18 to 36 3.3±3% 0 to 2500 20 40 80 40/120 84
CC10-2405Sx-E 18 to 36 5±3% 0 to 2000 20 40 80 40/120 86
CC10-2412Sx-E 18 to 36 12±3% 0 to 1000 40 100 200 30/120 87
18 to 36 15±3%∗70 to 800 40 100 200 30/120 87
CC10-2412Dx-E∗618 to 36 ±12±5% ±0 to 450 80 600 300 30/120 86
18 to 36 ±15±5%∗7±0 to 360 80 600 300 30/120 86
CC10-4803Sx-E 36 to 76 3.3±3% 0 to 2500 20 40 80 40/120 84
CC10-4805Sx-E 36 to 76 5±3% 0 to 2000 20 40 80 40/120 86
CC10-4812Sx-E 36 to 76 12±3% 0 to 1000 40 100 200 30/120 88
36 to 76 15±3%∗70 to 800 40 100 200 30/120 88
CC10-4812Dx-E∗636 to 76 ±12±5% ±0 to 450 80 600 300 30/120 86
36 to 76 ±15±5%∗7±0 to 360 80 600 300 30/120 86
Output power(%)
Ambient temperature(˚C)
–10–20–30–40 0 102030405060708090
20
40
60
80
100
0
a
b
a: 0.5m/s(100LFM)
b: 1m/s(200LFM)
Natural cooling
Overcurrent protection Output current limitation system, auto recovery
type
Operating temperature
range
–40 to +85°C[Derating is necessary when
operating environment temperature exceed 50°C]
Storage temperature
range –40 to +85°C
Humidity range 95(%)RH max.
[Maximum wet-bulb temperature: 38°C]
Amplitude 10 to 55Hz, all amplitude 1.52mm, sweep time
15min[3 directions of X, Y, Z, each 2h]
Vibration 980m/s2(100G) 6ms[6 directions, each 3 times]
Withstand voltage Eac Input to output, input to case, output to case:
500V, 1min
Insulation resistance Input to output, input to case, output to case:
50MΩ min.[DC.500V]
Safety standards UL60950-1, C-UL(CSA22.2 No.60950-1),
EN60950-1 certified
Weight 10.0g
(11/21)
002-05 / 20061129 / ea335_cc_e.fm
• All specifications are subject to change without notice.
CC10 Type
SHAPES AND DIMENSIONS
CC10-xxxxxF-E (DIP TYPE) RECOMMENDED PWB HOLE SIZE, LOCATION
[TOP VIEW]
CC10-xxxxxR-E (SMD TYPE) RECOMMENDED PWB HOLE SIZE, LOCATION
[TOP VIEW]
CONNECTIONS
CC10-xxxxSx-E CC10-xxxxDx-E
8.5max.
3.5
35.56
25.4
22.6±0.2
t=0.3
4.0
25.45.08 5.08
(3.68)(3.68)
5.08
10.16
5.085.085.08
2.7
1.0
2.7
0.53.5 0.5
a
b
3
2
1
7-0.3×0.6
4
5
7
6
a
b
b
a
30.48
3.38
18.62
10.16
15.24
5.085.085.08
35.56
2-ø1.5(Land diameter ø2.5)
7-ø1.0(Land diameter ø2.0)
Shape
Dimensions in mm
Tolerance: ±0.5
35.56
22.6±0.2
t=0.3
4.0
38.86
1.8 1.8
(3.68)(3.68)
5.08
10.16
5.085.085.08
8.8max.
3
2
1
7-0.3×0.6
4
5
7
6
Coplanarity 0.1max.
5.085.085.08
1.2
(3.68)
(18.92)
10.16
15.24
41.0
3.2 34.6 3.2
Shape
Dimensions in mm
Tolerance: ±0.5
17
2
3
5
6
4NC
–Vout
+Vout
TRM
RC
+Vin
–Vin
Load
TERMINAL PIN
CONFIGUTATION
No.1 +Vin
No.2 RC
No.3 –Vin
No.4 NC
No.5 –Vout
No.6 TRM
No.7 +Vout
17
2
3
5
6
4
COM
–Vout
+Vout
TRM
RC
+Vin
–Vin
LoadLoad
TERMINAL PIN
CONFIGUTATION
No.1 +Vin
No.2 RC
No.3 –Vin
No.4 –Vout
No.5 Common out
No.6 TRM
No.7 +Vout
(12/21)
002-05 / 20061129 / ea335_cc_e.fm
• All specifications are subject to change without notice.
CC15 Type
ELECTRICAL CHARACTERISTICS
∗1An "x" within the product name is to be replaced by the symbol representing the terminal structure (F: DIP / R: SMD).
∗2Total output voltage is including input, load, and temperature regulation.
∗3Measurement bandwidth: 50MHz
∗4Typical input voltage, maximum output current
OUTPUT POWER - AMBIENT TEMPERATURE(DERATING) COMMON SPECIFICATIONS
Part No.
Input
voltage
(V)
Output
voltage∗2
(V)
Output
current
(mA)
Voltage stability Output ripple noise
voltage∗3
(mVp-p)
typ./max.
Efficiency∗4
(%)
Input-
output
insulation
Input
(mV)max.
Load
(mV)max.
Temperature
(mV)max.
CC15-2403Sx∗1-E 18 to 36 3.3/–3 to +5% 0 to 4500 40 120 80 40/120 89
Withstand
voltage
AC.500V
1min
Resistance
DC.500V
50MΩ
min.
CC15-2405Sx-E 18 to 36 5.0/–3 to +5% 0 to 3000 50 200 80 40/120 89
Output power(%)
Ambient temperature(˚C)
–10–20–30–40 0 102030405060708090
20
40
60
80
100
0
a
b
a: 0.5m/s(100LFM)
b: 1m/s(200LFM)
Natural cooling
Overcurrent protection Output current limitation system, Output voltage
shut-down type
Operating temperature
range
–40 to +85°C[Derating is necessary when
operating environment temperature exceed 50°C]
Storage temperature
range –40 to +85°C
Humidity range 95(%)RH max.
[Maximum wet-bulb temperature: 38°C]
Amplitude 10 to 55Hz, all amplitude 1.52mm, sweep time
15min[3 directions of X, Y, Z, each 2h]
Vibration 980m/s2(100G) 6ms[6 directions, each 3 times]
Withstand voltage Eac Input to output, input to case, output to case:
500V, 1min
Insulation resistance Input to output, input to case, output to case:
50MΩ min[DC.500V]
Safety standards UL60950-1, C-UL(CSA22.2 No.60950-1),
EN60950-1 certified
Weight 12.5g
(13/21)
002-05 / 20061129 / ea335_cc_e.fm
• All specifications are subject to change without notice.
CC15 Type
SHAPES AND DIMENSIONS
CC15-xxxxSF-E (DIP TYPE) RECOMMENDED PWB HOLE SIZE, LOCATION
[TOP VIEW]
CC15-xxxxSR-E (SMD TYPE) RECOMMENDED PWB HOLE SIZE, LOCATION
[TOP VIEW]
CONNECTION
7.0max.3.0
37.55
25.4
6.075 6.075
38.1 32.1
t=0.3
(4.62)(4.62)2.54
2.5410.16
2.7
1.0
2.7
0.53.5
0.5
a
b
10
9
8
7
6
5
4
3
2
1
ba
17
16
15
14
13
12
11
ba
17-0.3×0.6
PPPPPPPP
4.47
22.86
27.33
10.16PPPPP
17-ø1.0(Land diameter ø2.0)
2-ø1.5(Land diameter ø2.5)
P=2.54
37.55
31.475
6.075
Shape
Dimensions in mm
Tolerance: ±0.5
PPPPPPPP
4.47
22.86
27.33
P
10.16PPPPP
P=2.54
43.0
36.63.2 3.2
1.2
Shape
Dimensions in mm
Tolerance: ±0.5
7.5max.
40.9
38.1 32.1
t=0.3
(4.62)(4.62)2.54
2.5410.16
10
9
8
7
6
5
4
3
2
1
20 18 17
16
15
14
13
12
11
2122
17-0.3×0.6
1.8 1.8
Coplanarity 0.1max.
1
2
3
4
5
6
7
8
9
10
17
16
15
14
13
12
11 +Vout
–Vout
+Vin
–Vin
RC
Load
TERMINAL PIN CONFIGUTATION
No.1 NC No.10 NC
No.2 NC No.11 NC
No.3 RC No.12 +Vout
No.4 NC No.13 +Vout
No.5 NC No.14 +Vout
No.6 +Vin No.15 –Vout
No.7 +Vin No.16 –Vout
No.8 –Vin No.17 NC
No.9 –Vin
(14/21)
002-05 / 20061129 / ea335_cc_e.fm
• All specifications are subject to change without notice.
CC25 Type
ELECTRICAL CHARACTERISTICS
∗1An "x" within the product name is to be replaced by the symbol representing the terminal structure (F: DIP / R: SMD).
∗2Total output voltage is including input, load, and temperature regulation.
∗3Measurement bandwidth: 50MHz
∗4Typical input voltage, maximum output current
OUTPUT POWER - AMBIENT TEMPERATURE(DERATING) COMMON SPECIFICATIONS
Part No.
Input
voltage
(V)
Output
voltage∗2
(V)
Output
current
(mA)
Voltage stability Output ripple noise
voltage∗3
(mVp-p)
typ./max.
Efficiency∗4
(%)
Input-
output
insulation
Input
(mV)max.
Load
(mV)max.
Temperature
(mV)max.
CC25-2403Sx∗1-E 18 to 36 3.3/–3 to +5% 0 to 7500 40 120 80 40/120 90
Withstand
voltage
AC.500V
1min
Resistance
DC.500V
50MΩ
min.
CC25-2405Sx-E 18 to 36 5.0/–3 to +5% 0 to 5000 50 200 80 40/120 90
Output power(%)
Ambient temperature(˚C)
–10–20–30–40 0 102030405060708090
20
40
60
80
100
0
a
b
a: 0.5m/s(100LFM)
b: 1m/s(200LFM)
Natural cooling
Overcurrent protection Output current limitation system, Output voltage
shut-down type
Operating temperature
range
–40 to +85°C[Derating is necessary when
operating environment temperature exceed 50°C]
Storage temperature
range –40 to +85°C
Humidity range 95(%)RH max.
[Maximum wet-bulb temperature: 38°C]
Amplitude 10 to 55Hz, all amplitude 1.52mm, sweep time
15min[3 directions of X, Y, Z, each 2h]
Vibration 500m/s2(51G) 6ms[6 directions, each 3 times]
Withstand voltage Eac Input to output, input to case, output to case:
500V, 1min
Insulation resistance Input to output, input to case, output to case:
50MΩ min.[DC.500V]
Safety standards UL60950-1, C-UL(CSA22.2 No.60950-1),
EN60950-1 certified
Weight 20.0g
(15/21)
002-05 / 20061129 / ea335_cc_e.fm
• All specifications are subject to change without notice.
CC25 Type
SHAPES AND DIMENSIONS
CC25-xxxxSF-E (DIP TYPE) RECOMMENDED PWB HOLE SIZE, LOCATION
[TOP VIEW]
CC25-xxxxSR-E (SMD TYPE) RECOMMENDED PWB HOLE SIZE, LOCATION
[TOP VIEW]
CONNECTION
7.0max.3.0
42.65
30.5
6.075 6.075
43.2 44.9
t=0.3
5.08 5.082.54
(4.67)
10.16
10
9
8
7
6
5
4
3
2
1
ba
ba
25-0.3×0.6
13
12
11
14
15
16
17
18
19
20
21
22
23
24
25
(4.67)
b
a
2.7
1.0
2.7
0.53.5
0.5
10.16
PPP PP
PPPPPPPPPP
PPP PP 4.52
5.08
35.56
40.08
P=2.54
36.575
42.65
6.075
25-ø1.0(Land diameter ø2.0)
2-ø1.5
(Land diameter ø2.5)
5.08
Shape
Dimensions in mm
Tolerance: ±0.5
7.5max.
46.0
43.2 44.9
t=0.3
1.8 1.8
5.08 5.082.54
10
9
8
7
6
5
4
3
2
1
13
12
11
14
15
16
17
18
19
20
21
22
23
24
25
Coplanarity 0.1max.
(4.67)
10.16
(4.67)
10.16PPPPPPPPPP
P=2.54
41.7
3.23.2
48.1
PPP PP PPP PP 4.52
5.08
35.56
40.08
5.08
Shape
Dimensions in mm
Tolerance: ±0.5
+Vout
–Vout
–Vin
+Vin
4
5
6
7
8
9
10
11
12
13
1
2
3
25
24
23
22
21
20
19
18
17
16
15
14
RC
Load
TERMINAL PIN CONFIGUTATION
No.1 NC No.10 +Vin No.19 –Vout
No.2 NC No.11 +Vin No.20 –Vout
No.3 NC No.12 +Vin No.21 –Vout
No.4 RC No.13 NC No.22 –Vout
No.5 NC No.14 NC No.23 –Vout
No.6 NC No.15 +Vout No.24 –Vout
No.7 –Vin No.16 +Vout No.25 NC
No.8 –Vin No.17 +Vout
No.9 –Vin No.18 +Vout
(16/21)
002-05 / 20061129 / ea335_cc_e.fm
• All specifications are subject to change without notice.
Control Functions/Connections
REMOTE CONTROL TERMINAL(RC)
(DIP/SMD MODELS)
1.5 to 10W Types
It is recommended to use an open collector as the control method
for the remote control terminal. If other methods are necessary,
please contact TDK first.
In addition, please use a transistor with VCE: Over Vin and Ic: Over
1mA.
When the RC terminal is open, the output is OFF, and when the
RC terminal and –Vin are shorted (0 to 0.4V) the output is ON.
If not using this function (always ON), short-circuit the RC terminal
and the –Vin terminal.
15 and 25W Types
When the RC terminal is open, the output is ON, and when the RC
terminal is HIGH (connected to +Vin) the output is OFF.
If not using this function (always ON), short-circuit the RC terminal
and the –Vin terminal.
OUTPUT VARIABLE TERMINAL(TRM)
(1.5 to 10W Types)
The output voltage can be set to the value shown in the following
table by connecting the TRM terminal with the –Vout terminal.
Please open the TRM terminal when not using this function.
Please take note that it is necessary to derate the output current to
match the maximum power when the output voltage is set higher
by this function.
DIP/SMD Models
∗ To be replaced by 1R5(1.5W), 3(3W), 6(6W) and 10(10W).
Fig.1
Fig.2
SIP Model
Fig.3
Fig.4
+Vin +Vout
–Vin –Vout
RC
RC
control
signal
Load
Load
+Vin +Vout
–Vin –Vout
RC
When not used
(Always ON)
Load
+Vin +Vout
–Vin –Vout
RC
RC
control
signal
Load
When not used
(Always ON)
+Vin +Vout
–Vin –Vout
RC
Part No. Open Connected with –Vout Fig.
CCx∗–xx03Sx 3.3V 3.6V 1
CCx–xx05Sx 5.0V 6.0V 1
CCx–xx12Sx 12V 15V 1
CCx–xx12Dx ±12V ±15V 2
Part No. Open Connected with –Vout Fig.
CC3–xx03SS–E 3.3V 3.67V 3
CC3–xx05SS–E 5V 6V 3
CC3–xx12SS–E 12V 15V 3
CC3–xx12DS–E ±12V ±15V 4
+Vin +Vout
TRM
–Vin –Vout
+Vin
–Vin –Vout
TRM
+Vout
3.3V
5V
12V
3.6V
6V
15V
Load
Load
+Vin +Vout
TRM
COM
–Vin –Vout
+Vin
–Vin –Vout
+Vout
Load
Load
Load
Load
TRM
COM
+12V
–12V
+15V
–15V
+Vin
+Vout
TRM
–Vin
–Vout
Load Load
+Vin
+Vout
TRM
–Vin
–Vout
3.3V, 5V, 12V 3.67V, 6V, 15V
+Vin
+Vout
TRM
–Vin
–Vout
Load Load
COM
+Vin
+Vout
TRM
–Vin
–Vout
Load Load
COM
+12V –12V +15V –15V
(17/21)
002-05 / 20061129 / ea335_cc_e.fm
• All specifications are subject to change without notice.
Control Functions/Connections
With the ±12V, 24V single output is possible by opening the COM
terminal and TRM terminal. Also, 30V single output is possible
when opening the COM terminal and connecting the TRM terminal
with the –Vout terminal.
DIP/SMD Models
∗ To be replaced by 1R5(1.5W), 3(3W), 6(6W) and 10(10W).
Fig.5 Fig.6
SIP Model
Fig.7 Fig.8
OUTPUT VARIABILITY FUNCTION
(ADDING EXTERNAL RESISTANCE)
(1.5 to 10W Types)
The output voltage can be adjusted within the range shown in the
following table by connecting resistance (Ra, Rb) between the
TRM terminal and the –Vout terminal, or between the TRM termi-
nal and the +Vout terminal.
Please take note that it is necessary to derate the output current to
match the maximum power when the output voltage is setted
higher.
DIP/SMD Models
∗ To be replaced by 1R5(1.5W), 3(3W), 6(6W) and 10(10W).
Calculate the output voltage Vout(V) from the connected resistance Ra,
Rb(kΩ)
Set the output voltage higher by adding resistance Ra between
the TRM terminal/–Vout terminal.
∗1 Vout=3.3+9.59/(32+Ra)
∗2 Vout=5.01+17.64/(17.8+Ra)
∗3 Vout=12.01+50.53/(16.9+Ra)
∗4 Vout=12.02+53.55/(18+Ra)
Set the output voltage lower by adding resistance Rb between
the TRM terminal/+Vout terminal.
∗5 Vout=3.3–15.53/(39.6+Rb) [Rb 62]
∗6 Vout=5.01–52.55/(31.8+Rb) [Rb 160]
∗7 Vout=12.01–431.1/(57+Rb) [Rb 620]
∗8 Vout=12.02–968.5/(103+Rb) [Rb 1500]
Calculate the connected resistance Ra and Rb(kΩ) from the set output
voltage Vout(V).
Set the output voltage higher by adding resistance Ra between
the TRM terminal/–Vout terminal.
∗1 Ra=9.59/(Vout–3.3)–32
∗2 Ra=17.64/(Vout–5.01)–17.8
∗3 Ra=50.53/(Vout–12.01)–16.9
∗4 Ra=53.55/(Vout–12.02)–18
Set the output voltage lower by adding resistance Rb between
the TRM terminal/+Vout terminal.
∗5 Rb=15.53/(3.3–Vout)–39.6
∗6 Rb=52.55/(5.01–Vout)–31.8
∗7 Rb=431.1/(12.01–Vout)–57
∗8 Rb=968.5/(12.02–Vout)–103
Fig.9 Fig.10
Fig.11 Fig.12
Part No. COM terminal TRM terminal Single output Fig.
CCx∗–xx12Dx–E
Open Open 24V 5
Open Connected with
–Vout 30V 6
Part No. COM terminal TRM terminal Single output Fig.
CC3–xx12DS–E
Open Open 24V 7
Open Connected with
–Vout 30V 8
+Vin
–Vin –Vout
+Vout
TRM
COM
24V
Load
+Vin
–Vin –Vout
+Vout
TRM
COM
30V
Load
+Vin
+Vout
TRM
–Vin
–Vout
Load
COM
24V
+Vin
+Vout
TRM
–Vin
–Vout
Load
COM
30V
Part No. Connecting –Vout
with Ra Fig. Connecting +Vout
with Rb Fig.
CCx∗–xx03Sx–E 3.3 to 3.6V∗19 3.15 to 3.3V∗510
CCx–xx05Sx–E 5 to 6V∗29 4.75 to 5V∗610
CCx–xx12Sx–E 12 to 15V∗39 11.4 to 12V∗710
CCx–xx12Dx–E ±12 to ±15V∗411 ±11.4 to ±12V∗812
Ra
–Vout
TRM
+Vout
3.3 to 3.6V
5 to 6V
12 to 15V
Load
Rb
–Vout
TRM
+Vout
3.15 to 3.3V
4.75 to 5V
11.4 to 12V
Load
Ra
–Vout
TRM
+Vout
COM
Load
Load
+12 to +15V
–12 to –15V
Rb
–Vout
TRM
+Vout
COM
Load
Load
+11.4 to +12V
–11.4 to –12V
(18/21)
002-05 / 20061129 / ea335_cc_e.fm
• All specifications are subject to change without notice.
Control Functions/Connections
SIP Model
Calculate the output voltage Vout(V) from the connected resistance Ra,
Rb(kΩ)
Set the output voltage higher by adding resistance Ra between
the TRM terminal/–Vout terminal.
∗1 Vout=3.3+1.04/(2.83+Ra)
∗2 Vout=5+12.75/(12.69+Ra)
∗3 Vout=12+48.4/(16.18+Ra)
∗4 Vout=12+54.7/(18+Ra)
Set the output voltage lower by adding resistance Rb between
the TRM terminal/+Vout terminal.
∗5 Vout=3.3–1.69/(3.66+Rb) [Rb 7.6]
∗6 Vout=5–12.78/(17.79+Rb) [Rb 33.3]
∗7 Vout=12–184.1/(35.54+Rb) [Rb 271.3]
∗8 Vout=12–470.3/(61.75+Rb) [Rb 722.1]
Calculate the connected resistance Ra and Rb(kΩ) from the set output
voltage Vout(V).
Set the output voltage higher by adding resistance Ra between
the TRM terminal/–Vout terminal.
∗1 Ra=1.04/(Vout–3.3)–2.83
∗2 Ra=12.75/(Vout–5)–12.69
∗3 Ra=48.4/(Vout–12)–16.18
∗4 Ra=54.7/(Vout–12)–18
Set the output voltage lower by adding resistance Rb between
the TRM terminal/+Vout terminal.
∗5 Rb=1.69/(3.3–Vout)–3.66
∗6 Rb=12.78/(5–Vout)–17.79
∗7 Rb=184.1/(12–Vout)–35.54
∗8 Rb=470.3/(12–Vout)–61.75
Fig.13 Fig.14
Fig.15 Fig.16
Part No. Connecting –Vout
with Ra Fig. Connecting +Vout
with Rb Fig.
CC3–xx03SS–E 3.3 to 3.67V∗113 3.15 to 3.3V∗514
CC3–xx05SS–E 5 to 6V∗213 4.75 to 5V∗614
CC3–xx12SS–E 12 to 15V∗313 11.4 to 12V∗714
CC3–xx12DS–E ±12 to ±15V∗415 ±11.4 to ±12V∗816
+Vout
TRM
–Vout
Load Ra
3.3 to 3.67V, 5 to 6V, 12 to 15V Load
Rb
+Vout
TRM
–Vout
3.15 to 3.3V, 4.75 to 5V, 11.4 to 12V
+Vout
TRM
–Vout
Load Load
COM
Ra
+12 to +15V –12 to –15V
+Vout
TRM
–Vout
Load Load
COM
Rb
+11.4 to +12V
–11.4 to –12V
(19/21)
002-05 / 20061129 / ea335_cc_e.fm
• All specifications are subject to change without notice.
Noise Reduction Measurement
REDUCING RIPPLE NOISE
If ripple noise from the converter is not measured, the results may
differ greatly depending on the measurement method. Therefore,
when measuring ripple noise, be sure to measure the noise from
the root part of the output terminal and not to make a loop so that
magnetic flux is not collected when connecting the probe.
Please keep in mind that spike voltage may vary greatly depending
on the ripple voltmeter and the frequency range of the oscillo-
scope.
TDK measures noise using the following wiring at a frequency
range of 50MHz.
INPUT RIPPLE NOISE
This series contains a capacitor at the input location. Therefore, it
is possible to be operated without connecting an external capacitor
for the input. However, if a capacitor is connected, it is possible to
reduce input ripple noise and input return noise. Input ripple noise
can be reduced even further when a π type filter is used as shown
in the following diagram.
When the distance between the input power source and the input
location of the converter is great, install a capacitor near an input
terminal as much as possible.
When the distance between the input power source and the input
location of the converter is great, the impedance of the input line
becomes high and spike noise may also increase.
Therefore, in such cases, it is recommended to connect the capac-
itor as close to the input location of the DC to DC converter as pos-
sible.
OUTPUT RIPPLE NOISE
In order to reduce output ripple noise, connect the capacitor to the
output portion of the converter. Output ripple noise can be
reduced even further when a π type filter is used as shown in the
following diagram. If such a filter is used, please use a coil upto
100µH.
When the distance between the converter output and the load is
great, connect the capacitor to the root portion of the load. To
reduce output spike noise, connect a ceramic capacitor with 0 to
1µF to the output portion of the converter.
OUTPUT EXTERNAL CAPACITANCE RANGES
Please keep in mind that if the capacitor installed at the output
location has a larger capacity than shown in the following value, or
if capacitors with low impedance are connected parallel much,
converter operation may be unstable.
Vout
0.1µF
V
+Vin
Vin
Iin
+Vout
–Vin
–Vout
50Ω coaxial cable
(1.5m)
Oscilloscope
(50MHz)or
Termination: 50Ω+0.1µF
A
V
10mm 20mm
Ripple
volt meter
(50MHz)
Load
+Vin +Vout
–Vin –Vout
+Vin +Vout
–Vin –Vout
Load
Load
+Vin +Vout
–Vin –Vout
Load
Part No. Capacitance(µF)max.
CC1R5-xx03Sx-E 100
CC1R5-xx05Sx-E 100
CC1R5-xx12Sx-E 47
CC1R5-xx12Dx-E 22
CC3-xx03Sx-E 220
CC3-xx05Sx-E 220
CC3-xx12Sx-E 100
CC3-xx12Dx-E 47
CC6-xx03Sx-E 470
CC6-xx05Sx-E 470
CC6-xx12Sx-E 220
CC6-xx12Dx-E 100
CC10-xx03Sx-E 470
CC10-xx05Sx-E 470
CC10-xx12Sx-E 220
CC10-xx12Dx-E 100
CC15-24xxSx-E 470
CC25-24xxSx-E 470
+Vin +Vout
–Vin –Vout
+Vin +Vout
–Vin –Vout
Load
Load
+Vin +Vout
–Vin –Vout
1µF
Load
(20/21)
002-05 / 20061129 / ea335_cc_e.fm
• All specifications are subject to change without notice.
Noise Reduction Measurement/Protection/Connections
COMMON MODE NOISE
Products with under 10W contain capacitors that are not con-
nected between the first and second. Therefore, in order to reduce
common mode noise, please connect a capacitor with about
1,000pF between the first and second GND as shown in the follow-
ing diagram.
Also, please keep in mind that if the connected capacitor is too
large, the coupling capacitance between the input and output will
become too high.
Be sure to also keep in mind the capacitor’s withstand voltage
(over 500V is recommended based on insulation withstand volt-
age).
10W-product contains capacitors with 1,000pF connected between
the first and second.
RADIATION NOISE
It is possible to reduce the converter’s radiation noise by connect-
ing a case terminal(SMD model has not a case terminal.) to the
input or output GND. However, efficiency will be different depend-
ing on the equipment being used.
Therefore, confirm this by using your actual equipment.
In addition, please wire the bottom of the converter to the GND line
and wire using a wide surface.
OVERCURRENT PROTECTION
1.5 to 10W Types
This series is equipped with an overcurrent protection circuit. This
means that when the output current begins to flow over the starting
point of the overcurrent, the output voltage becomes lower.
The output voltage is recovered automatically by releasing the
overcurrent and short circulation status.
However, please keep in mind that if the overcurrent status contin-
ues for over 30 seconds, internal elements of the converter will
deteriorate or be damaged.
The start point of the overcurrent is never lower than the rated
current.
If auto recovery is not executed when the overcurrent status is
released for some reason, please restart it after turning the electri-
cal power or the remote OFF one time.
15 to 25W Types
This series is recovery with an overcurrent protection circuit.
This means that when the output current begins to flow over the
rated current, the output voltage falls, and a converter steps a
latch.
If the overcurrent and the short circuit are released, the output volt-
age can not be recovered automatically.
Please restart the power source to recover the output voltage.
The start point of the overcurrent is never lower than the rated cur-
rent.
OVERVOLTAGE PROTECTION
This series is not equipped with an overvoltage protection function.
Please keep in mind that if overvoltage is impressed externally
over the rated voltage, it may cause damage.
LOW INPUT VOLTAGE PROTECTION
This series is equipped with low voltage input protection in order to
prevent errors caused by low input voltage. This means that the
converter stops operating when the voltage is below the specified
voltage. The following chart shows the specified range.
∗ To be replaced by 1R5(1.5W), 3(3W), 6(6W) and 10(10W).
WITHSTAND VOLTAGE
The withstand voltage between the input and output, and between
the terminal and the casing is AC.500V.
SERIES AND PARALLEL CONNECTIONS
SERIES CONNECTION
It is possible to have a series connection by using the wiring shown
in the following diagram on the left. However, if the output voltage
does not begin with this connection, connect the schottky barrier
diode, which has low forward voltage, as shown in the following
diagram on the right. In this case, be sure to use a schottky barrier
diode that has a forward current larger than the converter’s rated
current and that has a reverse withstand voltage at least two times
larger than the voltage between the +Vout and –Vout.
Also, make sure that the output current is below the rated current
of the smaller converter.
PARALLEL CONNECTION
It is not possible to have a parallel connection for increasing
currents.
+Vin +Vout
–Vin –Vout
Load
Part No. Input voltage range Specified voltage range for
protection circuit
CCx∗-05xxxx-E 4.5 to 9V 3 to 4.5V
CCx-12xxxx-E 9 to 18V 6 to 9V
CCx-24xxxx-E 18 to 36V 13 to 18V
CCx-48xxxx-E 36 to 76V 27 to 36V
CC15-24xxSx-E 18 to 36V 12 to 18V
CC25-24xxSx-E 18 to 36V 12 to 18V
+Vin +Vout
–Vin –Vout
+Vin +Vout
–Vin –Vout
+Vin +Vout
–Vin –Vout
+Vin +Vout
–Vin –Vout
Load
Load
(21/21)
002-05 / 20061129 / ea335_cc_e.fm
• All specifications are subject to change without notice.
Soldering Conditions/Cleaning Conditions
SOLDERING CONDITIONS
DIP and SIP Models
Make sure to perform soldering to the PC board under the follow-
ing conditions.
SMD Model
Lead-free solder/high-temperature reflow process
CLEANING CONDITIONS
It is recommended that the PC board should not be cleaned after
soldering. It, however, has already been checked that there is no
problem as a result of the following cleaning agents and test condi-
tions.
When cleaning with one of the following cleaning agents, it should
be used under these conditions. When using cleaning agent other
than the following, please consult TDK before use.
Cleaning Agents and Test Conditions
Clean Through 750H
(1) Cleaning (Agitation) 60°C/4min
(2) Rinsing (Agitation, water) 60°C/4min
(3) Rinsing (Agitation, water) Room temperature to 40°C/4min
(4) Drying 70°C/6min
Pine Alpha ST100S
(1) Cleaning (Agitation) 60°C/5min
(2) Rinsing (Agitation, water) 30°C/10min
(3) Drying 70°C/6min
Terpene Cleaner EC-7R
(1) Cleaning (Agitation) 60°C/5min
(2) Rinsing (Agitation, IPA) 30°C/10min
(3) Drying 70°C/6min
Isopropyl Alcohol
(1) Ultrasonic cleaning 60°C/1min
(2) Cooling bath cleaning R.T./1min
(3) Vapor cleaning 83°C/1min
Asahi Clean AK225AES
(1) Ultrasonic cleaning 50°C/2min
(2) Cooling bath cleaning R.T./2min
Soldering DIP 260°C, for 10 seconds max.
Soldering iron 380°C, for 3 seconds max.
150˚C
180˚C
225˚C min.
245˚C max.
Component surface temperature
40 to 100s1 to 3˚C/s 1 to 4˚C/s
30±20s
1 to 5˚C/s
