MC100EL1648DTG ON Semiconductor, MC100EL1648DTG Datasheet - Page 9

MC100EL1648DTG

Manufacturer Part Number

MC100EL1648DTG

Description

IC OSC VOLT CONTROL LP 5V 8TSSOP

Manufacturer

ON Semiconductor

Series

100ELr

Type

Voltage Controlled Oscillator (VCO)r

Datasheet

1.MC100EL1648DTR2G.pdf (16 pages)

Specifications of MC100EL1648DTG

Frequency

1.1GHz

Voltage - Supply

4.2 V ~ 5.5 V

Current - Supply

19mA

Operating Temperature

-40°C ~ 85°C

Package / Case

8-TSSOP

Count

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

MC100EL1648DTGOS

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Voltage Controlled Varactor Mode, allows the VCO to be

tuned across the full operating voltage of the power supply.

Deriving from Figure 6, the tank capacitor, C, is replaced

with a varactor diode whose capacitance changes with the

voltage applied, thus changing the resonant frequency at

which the VCO tank operates as shown in Figure 3, tank

option #1. The capacitive component in Equation 1 also

needs to include the input capacitance of the device and

other circuit and parasitic elements.

The tank circuit configuration presented in Figure 11,

190

170

150

130

110

1 KW

Figure 11. Voltage Controlled Varactor Mode

*Use high impedance probe (>1.0 MegW must be used).

**The 1200 W resistor and the scope termination imped-

L = Micro Metal torroid #T20−22, 8 turns #30

C = MMBV609

8 pin (14 pin) lead package

Figure 12. Plot 1. Dual Varactor MMBV609,

ance constitute a 25:1 attenuator probe. Coax shall be

CT−070−50 or equivalent.

Enameled Copper wire (@ 40 nH)

Tank #1

100 mF

8 (10)

1 (12)

, INPUT VOLTAGE (V)

vs. Frequency

0.1 mF

0.01 mF

3 (1)

6 (7) 7 (8)

0.1 mF

VOLTAGE CONTROLLED MODE

0.1 mF

2 (14)

5 (5)

4 (3)

0.1 mF

http://onsemi.com

OUT

mode with Tank Circuit #1 (Figure 3), it should be noted that

the cathode of the varactor diode (D), pin 8 (for 8 lead

package) or pin 10 (for 14 lead package) should be biased at

least 1.4 V above V

capacitance of the varactor diode (plus the input capacitance

of the device, about 6.0 pF typical) in the voltage controlled

mode is shown in Plot 1, Dual Varactor MMBV609 V

Frequency. Figure 6, Figure 7, and Figure 8 show the

accuracy of the measured frequency with the different

variable capacitance values. The 1.0 kW resistor in Figure 11

is used to protect the varactor diode during testing. It is not

necessary as long as the dc input voltage does not cause the

diode to become forward biased. The tuning range of the

oscillator in the voltage controlled mode may be calculated

as follows:

Where

the device power supply pins. Capacitors on the AGC pin

and the input varactor trace should be used to bypass the

AGC point and the VCO input (varactor diode),

guaranteeing only dc levels at these points. For output

frequency operation between 1.0 MHz and 50 MHz, a 0.1 mF

capacitor is sufficient. At higher frequencies, smaller values

of capacitance should be used; at lower frequencies, larger

values of capacitance. At high frequencies, the value of

bypass capacitors depends directly on the physical layout of

the system. All bypassing should be as close to the package

pins as possible to minimize unwanted lead inductance.

Several different capacitors may be needed to bypass

various frequencies.

When operating the oscillator in the voltage controlled

Typical

Good RF and low−frequency bypassing is necessary on

f min +

transfer

= Shunt Capacitance (input plus external

= Varactor Capacitance as a function of bias

f max

f min

capacitance)

voltage

characteristics

L(C D (max) ) C S

C D (max) ) C S

C D (min) ) C S

employing

the

vs.

MC100EL1648DTG ON Semiconductor, MC100EL1648DTG Datasheet - Page 9

MC100EL1648DTG

Specifications of MC100EL1648DTG

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