LTC1799CS5#TRM Linear Technology, LTC1799CS5#TRM Datasheet - Page 8

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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applicaTions inForMaTion

POwER SUPPLY REJECTION

Low Frequency Supply Rejection (Voltage Coefficient)

Figure 5 shows the output frequency sensitivity to power

supply voltage at several different temperatures. The

LTC1799 has a conservative guaranteed voltage coeffi-

cient of 0.1%/V but, as Figure 5 shows, the typical supply

sensitivity is lower.

High Frequency Power Supply Rejection

The accuracy of the LTC1799 may be affected when its

power supply generates significant noise with frequency

contents in the vicinity of the programmed value of f

a switching power supply is used to power up the LTC1799,

and if the ripple of the power supply is more than a few

tens of millivolts, make sure the switching frequency and

its harmonics are not related to the output frequency of

the LTC1799. Otherwise, the oscillator may show an ad-

ditional 0.1% to 0.2% of frequency error.

If the LTC1799 is powered by a switching regulator and

the switching frequency or its harmonics coincide with

the output frequency of the LTC1799, the jitter of the

oscillator output may be affected. This phenomenon will

become noticeable if the switching regulator exhibits

ripples beyond 30mV.

LTC1799

–0.05

0.10

0.15

0.05

2.5

PIN 4 = FLOATING (÷10)

Figure 5. Supply Sensitivity

SET

3.0

= 31.6k

SUPPLY VOLTAGE (V)

3.5

4.0

4.5

–40°C

25°C

5.0

85°C

1799 F05

5.5

OSC

. If

START-UP TIME

The start-up time and settling time to within 1% of the

final value can be estimated by t

+ 20µs. Note the start-up time depends on R

is independent from the setting of the divider pin. For

instance with R

of its 200kHz final value (N = 10) in approximately 160µs.

Figure 6 shows start-up times for various R

Figure 7 shows an application where a second set resistor

switch S1. When switch S1 is open, the output frequency

of the LTC1799 depends on the value of the resistor R

When switch S1 is closed, the output frequency of the

LTC1799 depends on the value of the parallel combination

of R

The start-up time and settling time of the LTC1799 with

switch S1 open (or closed) is described by t

above. Once the LTC1799 starts and settles, and switch

S1 closes (or opens), the LTC1799 will settle to its new

output frequency within approximately 25µs.

SET2

SET1

3V OR 5V

is connected in parallel with set resistor R

and R

–10

SET2

SET

GND

SET

100

TIME AFTER POWER APPLIED (µs)

LTC1799

31.6k

Figure 6. Start-Up Time

= 50k, the LTC1799 will settle with 1%

10k

OUT

DIV

200k

200

Figure 7

÷100

300

÷1

÷10

START

400

1799 F07

OSC

500

= 10MHz •

= 25°C

= 5V

≅ R

1799 F06

600

SET

START

(

N • R

(2.8µs/kΩ)

SET

resistors.

10k

SET1

10k

shown

and it

)

//R

SET1

1799fc

SET2

via

)

LTC1799CS5#TRM Linear Technology, LTC1799CS5#TRM Datasheet - Page 8

LTC1799CS5#TRM

Specifications of LTC1799CS5#TRM

Available stocks

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