BD3940FP-E2 Rohm Semiconductor, BD3940FP-E2 Datasheet - Page 5
BD3940FP-E2
Manufacturer Part Number
BD3940FP-E2
Description
IC REF VOLT REG LDO TO-252
Manufacturer
Rohm Semiconductor
Datasheet
1.BD3940FP-E2.pdf
(9 pages)
Specifications of BD3940FP-E2
Regulator Topology
Positive Fixed
Voltage - Output
3.3V
Voltage - Input
4.5 ~ 25 V
Voltage - Dropout (typical)
0.045V @ 200mA
Number Of Regulators
1
Current - Output
500mA (Max)
Operating Temperature
-40°C ~ 125°C
Mounting Type
Surface Mount
Package / Case
TO-252-2, DPak (2 Leads + Tab), TO-252AA, SC-63
Primary Input Voltage
13.2V
Output Voltage
3.36V
No. Of Pins
3
Output Current
500mA
Voltage Regulator Case Style
TO-252
Operating Temperature Range
-40°C To +125°C
Svhc
No SVHC (18-Jun-2010)
Package /
RoHS Compliant
Output Voltage Fixed
3.36V
Rohs Compliant
Yes
Mounting Style
SMD/SMT
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Current - Limit (min)
-
Lead Free Status / Rohs Status
Details
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
BD3940FP-E2
Manufacturer:
ROHM/罗姆
Quantity:
20 000
Refer to the dissipation reduction illustrated in Figs. 19 to 21 when using the IC in an environment where Ta ≥ 25°C. The characteristics of the IC
are greatly influenced by the operating temperature. If the temperature exceeds the maximum junction temperature Tjmax, the elements of the IC
may be damaged. It is necessary to give sufficient consideration to the heat of the IC in view of two points, i.e., the protection of the IC from
instantaneous damage and the maintenance of the reliability of the IC in long-time operation.
In order to protect the IC from thermal destruction, the operating temperature of the IC must not exceed the maximum junction temperature Tjmax.
Fig. 19 illustrates the power dissipation/power reduction for the TO252 package. Operate the IC within the power dissipation Pd. The following
method is used to calculate the power consumption Pc (W).
The load current Io is obtained to operate the IC within the power dissipation.
The maximum load current Iomax for the applied voltage Vcc can be calculated during the thermal design process.
Calculation example
Make a thermal calculation in consideration of the above equations so that the whole operating temperature range will be within the power
dissipation. The power consumption Pc of the IC, in the event of shorting (i.e., if the Vo and GND pins are shorted), will be obtained from the
following equation:
Thermal design
External settings for pins and precautions
1) Vcc pin
2) Capacitors for stopping oscillation at output pins
2.0
1.6
1.2
0.8
0.4
0
Pc = (Vcc − Vo) × Io + Vcc × Icc
Power dissipation Pd ≤ Pc
0
Example) Vcc = 12 V and Vo = 5.0 V at Ta = 85°C, BD3941FP
Pc = Vcc × (Icc + Ishort)
1.2W
Io ≤
Io ≤
Io ≤ 89 mA
Insert capacitors with a capacitance of 0.33 µF to 1,000 µF between the Vcc and GND pins.
The capacitance varies with the application. Be sure to design the capacitance with a sufficient margin.
Capacitors for stopping oscillation must be placed between each output pin and the GND pin. Use a capacitor within a capacitance range
between 1 µF and 1,000 µF. A ceramic capacitor with low ESR values, from 0.001 Ω to 100, can be used. Unstable input voltage and load
fluctuations can affect output voltages. Output capacitor capacitance values should be determined for actual application.
25
AMBIENT TEMPERATURE: Ta [ ℃ ]
0.624 −12 × Icc
Pd − Vcc × Icc
TO252-3
Vcc − Vo
IC mounted on a ROHM standard board
Board size: 70 mm ×70 mm × 1.6mm
θja = 104.2 (°C /W)
50
12 − 5
(Icc = 30 µA)
Fig.19
75
100
(Refer to Icc in Fig.12)
125
150
Ishort: Short current
θja = 104.2°C/W → −9.6 mAW/°C
25°C = 1.2 W → 85°C = 0.624 W
2.0
1.6
1.2
0.8
0.4
0
0
1.6W
25
AMBIENT TEMPERATURE: Ta [ ℃ ]
50
HRP5
IC mounted on a ROHM standard board
Board size: 70 mm ×70 mm × 1.6mm
θja = 78.1 (°C /W)
5/8
Fig.20
75
Vcc:
Icc:
Vo:
Io:
100
Input voltage
Output voltage
Load current
Total supply current
125
150
25
20
15
10
5
0
0
(1)20W
(2)2.0W
25
AMBIENT TEMPERATURE: Ta [ ℃ ]
TO220FP-3
50
(1)無限大放熱板使用時 θja=6.25( /W)
(2)IC 単体時 θja=62.5(℃/W)
Fig.21
75
100
125
150
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