LM2586S-12/NOPB National Semiconductor, LM2586S-12/NOPB Datasheet - Page 6

LM2586S-12/NOPB

Manufacturer Part Number

LM2586S-12/NOPB

Description

IC REG SIMPLE SWITCHER TO-263-7

Manufacturer

National Semiconductor

Series

SIMPLE SWITCHER®r

Type

Step-Up (Boost), Flyback, Forward Converterr

Datasheet

1.LM2586S-ADJNOPB.pdf (30 pages)

Specifications of LM2586S-12/NOPB

Internal Switch(s)

Yes

Synchronous Rectifier

Number Of Outputs

Voltage - Output

12V

Current - Output

Frequency - Switching

100kHz ~ 200kHz

Voltage - Input

4 ~ 40 V

Operating Temperature

-40°C ~ 125°C

Mounting Type

Surface Mount

Package / Case

D²Pak, TO-263 (7 leads + tab)

For Use With

551011367-051 - BOARD WEBENCH BUILD IT LM2586/88

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Power - Output

Other names

*LM2586S-12
*LM2586S-12/NOPB
LM2586S-12

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COMMON DEVICE PARAMETERS for all versions (Note 5)

Symbol

Electrical Characteristics

LM2586-ADJ

Note 1: Absolute Maximum Ratings indicate limits beyond which damage to the device may occur. These ratings apply when the current is limited to less than

1.2 mA for pins 1, 2, 3, and 6. Operating ratings indicate conditions for which the device is intended to be functional, but device parameter specifications may not

be guaranteed under these conditions. For guaranteed specifications and test conditions, see the Electrical Characteristics.

Note 2: Note that switch current and output current are not identical in a step-up regulator. Output current cannot be internally limited when the LM2586 is used as

a step-up regulator. To prevent damage to the switch, the output current must be externally limited to 3A. However, output current is internally limited when the

LM2586 is used as a flyback regulator (see the Application Hints section for more information).

Note 3: The junction temperature of the device (T

dissipation of the device (P

maximum allowable power dissipation, derate the maximum junction temperature — this ensures a margin of safety in the thermal design.

Note 4: External components such as the diode, inductor, input and output capacitors can affect switching regulator performance. When the LM2586 is used as

shown in Figures 1, 2, system performance will be as specified by the system parameters.

Note 5: All room temperature limits are 100% production tested, and all limits at temperature extremes are guaranteed via correlation using standard Statistical

Quality Control (SQC) methods.

Note 6: A 1.0 MΩ resistor is connected to the compensation pin (which is the error amplifier output) to ensure accuracy in measuring A

Note 7: To measure this parameter, the feedback voltage is set to a low value, depending on the output version of the device, to force the error amplifier output high

and the switch on.

Note 8: To measure this parameter, the feedback voltage is set to a high value, depending on the output version of the device, to force the error amplifier output

low and the switch off.

Note 9: To measure the worst-case error amplifier output current, the LM2586 is tested with the feedback voltage set to its low value (Note 7) and at its high value

(Note 8).

Note 10: When testing the minimum value, do not sink current from this pin — isolate it with a diode. If current is drawn from this pin, the frequency adjust circuit

will begin operation (see Figure 41).

Note 11: Junction to ambient thermal resistance (no external heat sink) for the 7 lead TO-220 package mounted vertically, with

PC board with minimum copper area.

Note 12: Junction to ambient thermal resistance (no external heat sink) for the 7 lead TO-220 package mounted vertically, with

containing approximately 4 square inches of (1 oz.) copper area surrounding the leads.

Note 13: Junction to ambient thermal resistance for the 7 lead TO-263 mounted horizontally against a PC board area of 0.136 square inches (the same size as the

TO-263 package) of 1 oz. (0.0014 in. thick) copper.

Note 14: Junction to ambient thermal resistance for the 7 lead TO-263 mounted horizontally against a PC board area of 0.4896 square inches (3.6 times the area

of the TO-263 package) of 1 oz. (0.0014 in. thick) copper.

Note 15: Junction to ambient thermal resistance for the 7 lead TO-263 mounted horizontally against a PC board copper area of 1.0064 square inches (7.4 times

the area of the TO-263 package) of 1 oz. (0.0014 in. thick) copper. Additional copper area will reduce thermal resistance further. See the thermal model in Switchers

Made Simple

J(MAX)

. For a safe thermal design, check that the maximum power dissipated by the device is less than: P

Thermal Resistance

software.

Parameters

). A thermal shutdown will occur if the temperature exceeds the maximum junction temperature of the device: P

(Continued)

) is a function of the ambient temperature (T

T Package, Junction to Ambient

(Note 11)

T Package, Junction to Ambient

(Note 12)

T Package, Junction to Case

S Package, Junction to Ambient

(Note 13)

S Package, Junction to Ambient

(Note 14)

S Package, Junction to Ambient

(Note 15)

S Package, Junction to Case

(Continued)

Conditions

), the junction-to-ambient thermal resistance (θ

Typical

≤ [T

J(MAX)

Min

− T

⁄

A(MAX)

inch leads soldered to a PC board

⁄

inch leads in a socket, or on a

]/θ

VOL

Max

. When calculating the

x θ

), and the power

+ T

A(MAX)

Units

˚C/W

≥

LM2586S-12/NOPB National Semiconductor, LM2586S-12/NOPB Datasheet - Page 6

LM2586S-12/NOPB

Specifications of LM2586S-12/NOPB

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