DS75150 Datasheet, PDF(2/6 Page) National Semiconductor (TI)

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DS75150 Datasheet, PDF (2/6 Pages) National Semiconductor (TI) – Dual Line Driver

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Absolute Maximum Ratings (Note 2)

If Military/Aerospace specified devices are required,

please contact the National Semiconductor Sales Office/

Distributors for availability and specifications.

Supply Voltage +VCC

15V

Supply Voltage âVCC

15V

Input Voltage

15V

Applied Output Voltage

+25V

Storage Temperature Range

â65ËC to +150ËC

Maximum Power Dissipation (Note 1) at 25ËC

SO Package

655 mW

Lead Temperature (Soldering, 4

sec.)

260ËC

Operating Conditions

Min

Supply Voltage (+VCC)

Supply Voltage (âVCC)

Input Voltage (VI)

Output Voltage (VO)

Operating Ambient Temperature

10.8

â10.8

Range (TA)

Note 1: Derate SO package 8.01 mW/ËC above 25ËC.

Max

13.2

â13.2

+5.5

Â±15

+70

Units

ËC

DC Electrical Characteristics (Notes 3, 4, 5, 6)

Symbol

Parameter

Conditions

Min Typ Max Units

VIH

VIL

VOH

VOL

IIH

IIL

IOS

+ICCH

âICCH

+ICCL

âICCL

High-Level Input Voltage

Low-Level Input Voltage

High-Level Output Voltage

Low-Level Output Voltage

High-Level Input Current

Low-Level Input Current

Short-Circuit Output Current

Supply Current From +VCC,

High-Level Output

Supply Current From âVCC,

High-Level Output

Supply Current From +VCC,

Low-Level Output

Supply Current From âVCC,

Low-Level Output

(Figure 1 )

(Figure 2)

+VCC = 10.8V,âVCC = â13.2V, VIL = 0.8V,

RL = 3 kâ¦ to 7 kâ¦ (Figure 2)

+VCC = 10.8V,âVCC = â10.8V, VIH = 2V,

RL = 3 kâ¦ to 7 kâ¦ (Figure 1)

+VCC = 13.2V,âVCC = â13.2V,

Data Input

VI = 2.4V, (Figure 3)

+VCC = 13.2V, âVCC = â13.2V, Strobe Input

VI = 2.4V, (Figure 3)

+VCC = 13.2V,âVCC = â13.2V,

Data Input

VI = 0.4V, (Figure 3)

+VCC = 13.2V, âVCC = â13.2V, Strobe Input

VI = 0.4V, (Figure 3)

+VCC = 13.2V,âVCC = â13.2V,

VO = 25V

(Figure 4), (Note 5)

VO = â25V

VO = 0V, VI = 3V

VO = 0V, VI = 0V

+VCC = 13.2V, âVCC = â13.2V, VI = 0V,

RL = 3 kâ¦, TA = 25ËC, (Figure 5)

+VCC = 13.2V, âVCC = â13.2V, VI = 0V,

RL = 3 kâ¦, TA = 25ËC, (Figure 5)

+VCC = 13.2V, âVCC = â13.2V, VI = 3V,

RL = 3 kâ¦, TA = 25ËC, (Figure 5)

+VCC = 13.2V, âVCC = â13.2V, VI = 3V,

RL = 3 kâ¦, TA = 25ËC, (Figure 5)

0.8

â8 â5

1 10 ÂµA

2 20 ÂµA

â1 â1.6 mA

â2 â3.2 mA

â3 â6 mA

15 30 mA

â15 â30 mA

10 22 mA

â1 â10 mA

8 17 mA

â9 â20 mA

Note 2: âAbsolute Maximum Ratingsâ are those values beyond which the safety of the device cannot be guaranteed. Except for âOperating Temperature Rangeâ they

are not meant to imply that the devices should be operated at these limits. The table of âElectrical Characteristicsâ provides conditions for actual device operation.

Note 3: Unless otherwise specified min/max limits apply across the 0ËC to +70ËC range for the DS75150. All typical values are TA = 25ËC and +VCC = 12V, âVCC

= â12V.

Note 4: All current into device pins shown as positive, out of device pins as negative, all voltages referenced to ground unless otherwise noted. All values shown

as max or min on absolute value basis.

Note 5: Only one output at a time should be shorted.

Note 6: The algebraic convention where the most-positive (least-negative) limit is designated as maximum is used in this data sheet for logic levels only, e.g., when

â5V is the maximum, the typical value is more-negative voltage.

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