LTC1799CS5#TRM Linear Technology, LTC1799CS5#TRM Datasheet - Page 6

LTC1799CS5#TRM

Manufacturer Part Number

LTC1799CS5#TRM

Description

IC OSCILLATOR RES SET TSOT23-5

Manufacturer

Linear Technology

Type

Oscillator, Siliconr

Datasheet

1.LTC1799CS5TRMPBF.pdf (14 pages)

Specifications of LTC1799CS5#TRM

Frequency

33MHz

Voltage - Supply

2.7 V ~ 5.5 V

Current - Supply

7mA

Operating Temperature

0°C ~ 70°C

Package / Case

TSOT-23-5, TSOT-5, TSOP-5

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Count

Other names

LTC1799CS5#TRMTR

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Current page: 6 of 14
Download datasheet (233Kb)

Theory oF operaTion

As shown in the Block Diagram, the LTC1799’s master

oscillator is controlled by the ratio of the voltage between

the V

1.13V below V

voltage. This voltage is accurate to ± 7% at a particular

input current and supply voltage (see Figure 1). The ef-

fective input resistance is approximately 2k.

A resistor R

“locks together” the voltage (V

variation. This provides the LTC1799’s high precision. The

master oscillation frequency reduces to:

The LTC1799 is optimized for use with resistors between

10k and 200k, corresponding to master oscillator frequen-

cies between 0.5MHz and 10MHz. Accurate frequencies up

to 20MHz (R

is greater than 4V.

To extend the output frequency range, the master oscillator

signal may be divided by 1, 10 or 100 before driving OUT

LTC1799

RES

). The voltage on the SET pin is forced to approximately

and SET pins and the current entering the SET pin

= 10MHz •

1.4

1.3

1.2

1.1

1.0

0.9

0.8

Figure 1. V

SET

, connected between the V

by the PMOS transistor and its gate bias

= 5k) are attainable if the supply voltage



 

10kΩ

= 3V

SET

– V

SET

RES



 

= 5V

Variation with I

(µA)

– V

100

SET

) and current, I

= 25°C

1799 F01

1000

RES

and SET pins,

RES

(Pin 5). The divide-by value is determined by the state of

the DIV input (Pin 4). Tie DIV to GND or drive it below 0.5V

to select ÷1. This is the highest frequency range, with the

master output frequency passed directly to OUT. The DIV

pin may be floated or driven to midsupply to select ÷10,

the intermediate frequency range. The lowest frequency

range, ÷100, is selected by tying DIV to V

within 0.4V of V

overlapping frequency ranges near 100kHz and 1MHz.

The CMOS output driver has an on resistance that is typi-

cally less than 100Ω. In the ÷1 (high frequency) mode,

the rise and fall times are typically 7ns with a 5V supply

and 11ns with a 3V supply. These times maintain a clean

square wave at 10MHz (20MHz at 5V supply). In the ÷10

and ÷100 modes, where the output frequency is much lower,

slew rate control circuitry in the output driver increases

the rise/fall times to typically 14ns for a 5V supply and

19ns for a 3V supply. The reduced slew rate lowers EMI

(electromagnetic interference) and supply bounce.

SET

, divider setting and output frequency, including the

1000

Figure 2. R

100

. Figure 2 shows the relationship between

DESIRED OUTPUT FREQUENCY (Hz)

10k

SET

÷100

vs Desired Output Frequency

100k

÷10

÷1

OPERATION

ACCURATE

10M

MOST

1799 F02

100M

or driving it to

1799fc

LTC1799CS5#TRM Linear Technology, LTC1799CS5#TRM Datasheet - Page 6

LTC1799CS5#TRM

Specifications of LTC1799CS5#TRM

Available stocks

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