EM6152 EM Microelectronic, EM6152 Datasheet - Page 3

EM6152

Manufacturer Part Number

EM6152

Description

5V Automotive Regulator

Manufacturer

EM Microelectronic

Datasheet

1.EM6152.pdf (12 pages)

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Absolute Maximum Ratings

Stresses above these listed maximum ratings may cause

permanent damages to the device. Exposure beyond

specified operating conditions may affect device reliability or

cause malfunction.

Decoupling Methods

The input capacitor is necessary to compensate the line

influences. A resistor of approx. 1 Ω connected in series

with the input capacitor may be used to damp the oscillation

of the input capacitor and input inductance. The ESR value

of the capacitor plays a major role regarding the efficiency of

the decoupling. It is recommended also to connect a

ceramic capacitor (100 nF) directly at the IC's pins. In

general the user must assure that pulses on the input line

have slew rates lower than 1 V/µs. On the output side, the

capacitor is necessary for the stability of the regulation

circuit. The stability is guaranteed for values of 22 µF or

greater. It is especially important to choose a capacitor with

Note 1: full operation guaranteed. To achieve the load regulation specified in Table 3 a 22 μ F capacitor or greater is required on the INPUT,

Note 2: a 22 μ F load capacitor and a 100 nF decoupling capacitor are required on the regulator OUTPUT for stability. The 22 μ F must have

Note 3:

Note 4: the OUTPUT current will not apply to the full range of input voltage. Power dissipation that would require the EM6152 to work above

Note 5: the thermal resistance specified assumes the package is soldered to a PCB. A typical value of 51°C/W has been obtained with a dual

rev. B / 06.06

Parameter

Continuous voltage at INPUT

to V

Transients on INPUT for

t < 100 ms and duty cycle 1%

Max. voltage at any signal pin

Min. voltage at any signal pin

Reverse supply voltage on

INPUT

Storage temperature

ESD

According to MIL-STD-883C

method 3015.7

see Fig. 1b. The 22 μ F must have an effective resistance ≤ 5 Ω and a resonant frequency above 500 kHz.

an effective series resistance of ≤ 5 Ω and a resonant frequency above 500 kHz.

the maximum junction temperature (+125°C) must be avoided.

layer board, with the slug soldered to the heat-sink area of the PCB.

RES

must be pulled up externally to V

Symbol

TRANS

INPUT

Smax

MAX

REV

STO

MIN

OUTPUT

-65 to +150 °C

-0.3 to +40V

OUTPUT

Up to +45V

Conditions

even if it is unused. ( RES and EN are used as inputs by EM test)

2000V

-42V

– 0.3V

Table 1

+ 0.3V

a low ESR value. Tantalum capacitors are recommended.

See the notes related to Table 2. Special care must be

taken in disturbed environments (automotive, proximity of

motors and relays, etc.).

Handling Procedures

This device has built-in protection against high static

voltages or electric fields; however, it is advised that normal

precautions be taken as for any other CMOS component.

Unless otherwise specified, proper operation can only occur

when all terminal voltages are kept within the voltage range.

At any time, all inputs must be tied to a defined logic voltage

level.

Operating Conditions

Parameter

Operating junction

temperature

INPUT voltage (note 1)

OUTPUT voltage (note 1, 2) V

(note 3)

OUTPUT current (note 4)

Comparator input voltage

RC-oscillator programming

Package thermal resistance

from junction to ambient :

(note 5)

RES

SO-8

PSOP2-16 150 MILS

and

guaranteed

Symbol

OUTPUT

INPUT

th(j-a)

OSC

www.emmicroelectronic.com

EM6152

Min.

-40

2.3

1.2

Max.

+125

1000

OUTPUT

400

160

5.5

Table 2

Units

°C/W

k Ω

°C

EM6152 EM Microelectronic, EM6152 Datasheet - Page 3

EM6152

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