VEFT1-S12-D15-SMT-M [CUI]
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型号: | VEFT1-S12-D15-SMT-M |
厂家: | ![]() |
描述: | Analog Circuit, |
文件: | 总3页 (文件大小:125K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
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VEFT1-SMT Dual Output Series Dc-Dc Converter
Rev. 11-2005
Description
Features
Designed to convert fixed volt-
ages into an isolated voltage, the
VEFT1-SMT dual series is well
suited for providing board-mount
local supplies in a wide range of
applications, including mixed ana-
log/digital circuits, test & meas-
urement equip., process/machine
controls, datacom/telecom fields,
etc...
·Isolated 1 W output
·Temperature range: -40°C~+85°C
available in -55°C~+125°C
·Unregulated
·High efficiency to 80%
·Dual voltage output
·Small footprint
·SMD package style
·Industry standard pinout
·UL94-V0 package
·No heatsink required
·3K Vdc isolation
·Power density 0.85 W/cm³
·No external component required
·Low cost
The semi-regulated output can be
followed by 3-terminal regulators
to provide output protection, in
addition to output regulation.
Model
Input Voltage
Output
Voltage
±5 Vdc
Output Current
Package
Style
SMD
SMD
SMD
SMD
SMD
SMD
SMD
SMD
SMD
SMD
SMD
SMD
SMD
SMD
SMD
SMD
Number
Nominal
5 Vdc
Range
Max.
±100 mA
±56 mA
±42 mA
±33 mA
±100 mA
±56 mA
±42 mA
±33 mA
±100 mA
±56 mA
±42 mA
±33 mA
±100 mA
±56 mA
±42 mA
±33 mA
Min.
±10 mA
±6 mA
±5 mA
±4 mA
±10 mA
±6 mA
±5 mA
±4 mA
±10 mA
±6 mA
±5 mA
±4 mA
±10 mA
±6 mA
±5 mA
±4 mA
Efficiency
72%
75%
78%
78%
74%
76%
79%
79%
74%
75%
79%
79%
79%
80%
80%
80%
VEFT1-S5-D5-SMT
VEFT1-S5-D9-SMT
VEFT1-S5-D12-SMT
VEFT1-S5-D15-SMT
VEFT1-S12-D5-SMT
VEFT1-S12-D9-SMT
VEFT1-S12-D12-SMT
VEFT1-S12-D15-SMT
VEFT1-S15-D5-SMT
VEFT1-S15-D9-SMT
VEFT1-S15-D12-SMT
VEFT1-S15-D15-SMT
VEFT1-S24-D5-SMT
VEFT1-S24-D9-SMT
VEFT1-S24-D12-SMT
VEFT1-S24-D15-SMT
4.5~5.5 Vdc
5 Vdc
4.5~5.5 Vdc
±9 Vdc
5 Vdc
4.5~5.5 Vdc
±12 Vdc
±15 Vdc
±5 Vdc
5 Vdc
4.5~5.5 Vdc
12 Vdc
12 Vdc
12 Vdc
12 Vdc
15 Vdc
15 Vdc
15 Vdc
15 Vdc
24 Vdc
24 Vdc
24 Vdc
24 Vdc
10.8~13.2 Vdc
10.8~13.2 Vdc
10.8~13.2 Vdc
10.8~13.2 Vdc
14.25~15.75 Vdc
14.25~15.75 Vdc
14.25~15.75 Vdc
14.25~15.75 Vdc
21.6~26.4 Vdc
21.6~26.4 Vdc
21.6~26.4 Vdc
21.6~26.4 Vdc
±9 Vdc
±12 Vdc
±15 Vdc
±5 Vdc
±9 Vdc
±12 Vdc
±15 Vdc
±5 Vdc
±9 Vdc
±12 Vdc
±15 Vdc
Notes:
1. All specifications measured at TA=25°C, humidity <75%, nominal input voltage and rated output load unless
otherwise specified.
2. For extended temperature version, add -M to the model #, e.g. VEFT1-S5-D5-SMT-M.
Output Specifications
Item
Test conditions
Min.
Typ.
Max.
Units
Output power
0.1
1
W
Line Regulation
Load Regulation
Output voltage accuracy
Temperature drift
Output ripple
For Vin change of 1%
10% to 100% full load
1.2%
10%
15%
See tolerance envelope graph
@ 100% load
0.03
75
%/°C
mVp-p
Hz
20 MHz Bandwidth
50
Switching frequency
Full load, nominal input
100K
150K
200K
V-Infinity, LLC, 9615 SW Allen Blvd Suite 103, Beaverton, OR 97005
www.v-infinity.com
1-866-372-1258
2 / 3
VEFT1-SMT Dual Output Series Dc-Dc Converter
Rev. 11-2005
General Specifications
Short circuit protection
Temperature rise at full load
Cooling
<1 second
25°C Max, 15°C Typ.
Free air convection
-40°C to +85°C
-55°C to +125°C
-55°C to +125°C
Operating temperature range
for regular version
for extended temp. version
Storage temperature range
Soldering temperature
Storage humidity range
Case material
300°C (1.5mm from case for 10 sec.)
<95%
Plastic (UL94-V0)
>3,500,000 hrs.
MTBF
Burn-in
Full load at +85°C, for 4 hours at no-load and 4 hours at full load.
Isolation Specifications
Item
Test Conditions
Min.
3000
1000
Typ.
Max.
Units
Vdc
Isolation Voltage
Insulation Resistance
Tested for 1 min.
Test at 500 Vdc
M Ω
Typical Characteristics
Outline Dimensions &
Recommended Layout Pattern
Side View
A
6.70
7.0
15.24
6.0
0.50
5.00
A
1.50
1.20
1.85MAX
0.3
Top View
15.24
7.62
Pin
12 11 10 8 7
Pin
1
2
3
5
6
GND
Vin
NC
COM
-Vo
7
8
10
11
12
NC
+Vo
NC
NC
NC
11.2
7.5
MAX
1
2 3
5 6
Note: All Pins on a 2.54mm pitch; all pin diameters are 0.50mm; all dimensions in mm.
V-Infinity, LLC, 9615 SW Allen Blvd Suite 103, Beaverton, OR 97005
www.v-infinity.com
1-866-372-1258
3 / 3
VEFT1-SMT Dual Output Series Dc-Dc Converter
Rev. 11-2005
- Minimum loading
Application Notes:
The converter needs a minimum of 10% loading to
maintain output regulation. Operation under no-load
conditions will not cause immediate damages but
may reduce reliability, and cause performance not to
meet specifications.
- Input filtering
To reduce the reflected ripple current and minimize
EMI, especially when the converter input is more
than 2” away from the DC source, it is recommended
to connect a low ESR electrolytic capacitor between
Vin and Gnd. The values suggested are as shown in
Table 1. If additional filtering is required, the
capacitance may be increased, or expanded to an LC
network as shown in Figure 1.
- Regulation
With a semi-regulated design, the converter’s output
voltage varies with load current and will change
proportionally to the input voltage. If regulated
output is needed, an external regulator can be used
as shown in Figure 2.
Table 1
Input Voltage
5 V
External Input Capacitance
- Protection
The converter has minimal protection against input
over-voltage or output over-load, and may be
permanently damaged if exposed to these conditions.
An input clamping device can be used for input
voltage limiting. An input fuse or an output fuse
can also be used to protect against over-loading.
4.7 µF
2.2 µF
2.2 µF
1.0 µF
12 V
15 V
24 V
- Output filtering
- Dual outputs used as a single output
An output capacitor is needed to meet output ripple
requirements as shown in Table 2.
The +Vout and -Vout can be used to obtain a single
output that is the sum of the two outputs. In this
case, the COM pin shouldn’t be used.
Output capacitance may be increased for additional
filtering, but should not exeed 10µF or expanded to
an LC network as in Figure 1.
- External Regulator
An external 3-terminal regulator can be connected
to the output of the converter to achieve full
regulation. Make sure the converter’s output voltage
provides sufficient head room for the regulator. An
additional benefit is that the built-in protection
features in the regulator, such as OCP, OTP, etc, will
protect the converter also. In a complimentory
supply, a negative output regulator must be used to
achieve the negative regulated output.
Table 2
External Ouput Capacitance
Vout
5 V
10 µF
4.7 µF
2.2 µF
9 V
12 V
15 V
24 V
1 µF
0.47 µF
V-Infinity, LLC, 9615 SW Allen Blvd Suite 103, Beaverton, OR 97005
www.v-infinity.com
1-866-372-1258
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