SG3731N MICROSEMI, SG3731N Datasheet - Page 3

SG3731N

Manufacturer Part Number

SG3731N

Description

Manufacturer

MICROSEMI

Datasheet

1.SG3731N.pdf (5 pages)

Specifications of SG3731N

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Rev 1.3a

ELECTRICAL CHARACTERISTICS

Note 3. These parameters, although guaranteed, are not tested in production.

Note 4. Unity Gain Inverting 10K

APPLICATION INFORMATION

SUPPLY VOLTAGE

The SG1731 requires a supply voltage for the control circuitry (V

and for the power output drivers (V

balanced positive and negative with respect to ground, or single-

ended. The only restrictions are:

SUBSTRATE CONNECTION

The substrate connection (Pin 10) must always be connected to

either -V

also be well bypassed to ground with a high quality capacitor.

OSCILLATOR

The triangle oscillator consists of two voltage comparators, a set/

reset flip-flop, a bi-directional 500 A current source, and an

external timing capacitor C

applied to Pin 2 determines the positive peak value of the triangle,

and a negative reference voltage (2V

peak value of the triangle waveform.

Since the value of the internal current source is fixed at a nominal

±500 A, the oscillator period is a function of the selected peak-

to-peak voltage excursion and the value of C

expression for the oscillator period is:

where C

peak-to-peak.

SHUTDOWN Section

Logic Threshold

SHUTDOWN HIGH Current

SHUTDOWN LOW Current

Output Drivers (Each Output)

HIGH Output Voltage

LOW Output Voltage

Driver Risetime

Driver Falltime

Total Supply Current

1. The voltage between +V

2. The voltage between +V

3. +V

Supply Current

no more than 44V.

eliminates the combination of a single-ended positive control

supply with a single-ended negative driver supply.

1999

must be at least 5V more positive than -V

or -V

is the timing capacitor in Farads and dV is V

, whichever is more negative. The substrate must

Parameter

OSC

5 x 10

. A positive reference voltage (2V

and -V

Feedback Resistance.

-4

). Each supply may be either

) at Pin 7 sets the negative

must be at least 7.0V; but

must be at least 5.0V; but

(continued)

. The theoretical

-V

SOURCE

SINK

SHUTDOWN

OSC

= 1000pF

(Eq.1)

= -3.5V to -15V

= 20mA

= 100mA

. This

in Volts

= 20mA

= 100mA

= -V

)

+2.4V

+ 0.8V

Test Conditions

As a design aid, the solutions to Equation 1 over the

recommended range of T

Figure 1. The lower limit on T

maximum frequency of 350 KHz. The maximum value of V

(2V

ERROR AMPLIFIER

The error amplifier of the SG1731 is a conventional internally-

compensated operational amplifier with low output impedance.

All of the usual feedback and frequency compensation

techniques may be use to control the closed-loop gain

characteristics. The control supply voltage ±V

input common mode range and output voltage swing; both will

extend to within 3V of the V

PULSE WIDTH MODULATION

Pulse width modulation occurs by comparing the triangle

waveform to a fixed upper (+V

voltage.

Output A to switch to the HIGH state, and a crossing below

Note 5. V

) - (2V

A crossing above the upper threshold causes

FIGURE 1 - SG1731 OSCILLATOR PERIOD VS. V

), is 10V peak-to-peak for linear waveforms.

= 12V.

SG1731/SG2731/SG3731

OSC

11861

and V

supply.

OSC

Western

OSC

is 1.85 s, corresponding to a

) and lower (-V

SG1731/2731/3731

Min. Typ. Max.

19.2

19.0

+0.8

are given in graphic form in

(714) 898-8121

Avenue

will determine the

OSC

Garden

-19.2

-19.0

AND C

-1.0

400

300

+2.0

) threshold

FAX: (714) 893-2570

Grove,

Units

OSC

92841

SG3731N MICROSEMI, SG3731N Datasheet - Page 3

SG3731N

Specifications of SG3731N

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