LM2587T-ADJ/NOPB National Semiconductor, LM2587T-ADJ/NOPB Datasheet - Page 25
LM2587T-ADJ/NOPB
Manufacturer Part Number
LM2587T-ADJ/NOPB
Description
IC REG SIMPLE SWITCHER TO-220-5
Manufacturer
National Semiconductor
Series
SIMPLE SWITCHER®r
Type
Step-Up (Boost), Flyback, Forward Converterr
Specifications of LM2587T-ADJ/NOPB
Internal Switch(s)
Yes
Synchronous Rectifier
No
Number Of Outputs
1
Voltage - Output
Adjustable
Current - Output
5A
Frequency - Switching
100kHz
Voltage - Input
4 ~ 40 V
Operating Temperature
-40°C ~ 125°C
Mounting Type
Through Hole
Package / Case
TO-220-5 (Bent and Staggered Leads)
Current, Input Bias
125 nA
Current, Output
5 A
Current, Supply
11 mA
Frequency, Oscillator
100 kHz
Package Type
TO-220
Regulation, Line
20 mV
Regulation, Load
20 mV
Regulator Type
Boost (Step-Up)
Resistance, Thermal, Junction To Case
2 °C/W
Temperature, Operating, Range
-40 to +125 °C
Transconductance
3.2
Voltage, Gain
670 V/V
Voltage, Input
4 to 40 V
Primary Input Voltage
40V
No. Of Outputs
1
Output Voltage
37V
Output Current
5A
No. Of Pins
5
Operating Temperature Range
-40°C To +125°C
Msl
MSL 1 - Unlimited
Filter Terminals
Through Hole
Rohs Compliant
Yes
For Use With
551011367-061 - BOARD WEBENCH LM2577,LM2585/87LM2587EVAL - EVALUATION BOARD FOR LM2587
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Power - Output
-
Lead Free Status / Rohs Status
RoHS Compliant part
Electrostatic Device
Other names
*LM2587T-ADJ
*LM2587T-ADJ/NOPB
LM2587T-ADJ
*LM2587T-ADJ/NOPB
LM2587T-ADJ
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
LM2587T-ADJ/NOPB
Manufacturer:
SANKEN
Quantity:
30 000
Part Number:
LM2587T-ADJ/NOPB
Manufacturer:
NS/国半
Quantity:
20 000
4) LM2587 package thermal resistances θ
in the Electrical Characteristics).
Total power dissipated (P
as follows:
Boost:
V
N is the transformer turns ratio, D is the duty cycle, and
I
the maximum load currents for multiple-output flyback regu-
lators). The duty cycle is given by:
Boost:
where V
typically 0.5V for Schottky diodes and 0.8V for fast recovery
diodes. V
in the Characteristic Curves.
When no heat sink is used, the junction temperature rise is:
Adding the junction temperature rise to the maximum ambient
temperature gives the actual operating junction temperature:
If the operating junction temperature exceeds the maximum
junction temperatue in item 3 above, then a heat sink is re-
LOAD
IN
is the minimum input voltage, V
is the maximum load current (and
F
SAT
is the forward biased voltage of the diode and is
is the switch saturation voltage and can be found
ΔT
T
J
D
J
= ΔT
) by the LM2587 can be estimated
= P
D
J
× θ
+ T
OUT
JA
A
.
.
is the output voltage,
∑
I
LOAD
JA
and θ
is the sum of
JC
(given
25
quired. When using a heat sink, the junction temperature rise
can be determined by the following:
Again, the operating junction temperature will be:
As before, if the maximum junction temperature is exceeded,
a larger heat sink is required (one that has a lower thermal
resistance).
Included in the Switchers Made Simple design software is a
more precise (non-linear) thermal model that can be used to
determine junction temperature with different input-output pa-
rameters or different component values. It can also calculate
the heat sink thermal resistance required to maintain the reg-
ulator junction temperature below the maximum operating
temperature.
To further simplify the flyback regulator design procedure,
National Semiconductor is making available computer design
software. Switchers Made Simple software is available on
a (3½ ) diskette for IBM compatable computers from a Na-
tional Semiconductor sales office in your area or the National
Semiconductor
(1-800-272-9959).
European Magnetic Vendor
Contacts
Please contact the following addresses for details of local
distributors or representatives:
Coilcraft
21 Napier Place
Wardpark North Cumbernauld, Scotland G68 0LL Phone: +44
1236 730 595 Fax: +44 1236 730 627
Pulse Engineering
Dunmore Road
Tuam Co. Galway, Ireland Phone: +353 93 24 107 Fax: +353
93 24 459
ΔT
J
= P
D
× (θ
Customer
T
J
JC
= ΔT
+ θ
Interface
J
+ T
A
Response
+ θ
Heat Sink
)
www.national.com
Center
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