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 CD4046BC Micropower Phase-Locked Loop
October 1987 Revised March 2002
CD4046BC Micropower Phase-Locked Loop
General Description
The CD4046BC micropower phase-locked loop (PLL) consists of a low power, linear, voltage-controlled oscillator (VCO), a source follower, a zener diode, and two phase comparators. The two phase comparators have a common signal input and a common comparator input. The signal input can be directly coupled for a large voltage signal, or capacitively coupled to the self-biasing amplifier at the signal input for a small voltage signal. Phase comparator I, an exclusive OR gate, provides a digital error signal (phase comp. I Out) and maintains 90 phase shifts at the VCO center frequency. Between signal input and comparator input (both at 50% duty cycle), it may lock onto the signal input frequencies that are close to harmonics of the VCO center frequency. Phase comparator II is an edge-controlled digital memory network. It provides a digital error signal (phase comp. II Out) and lock-in signal (phase pulses) to indicate a locked condition and maintains a 0 phase shift between signal input and comparator input. The linear voltage-controlled oscillator (VCO) produces an output signal (VCO Out) whose frequency is determined by the voltage at the VCOIN input, and the capacitor and resistors connected to pin C1A, C1B, R1 and R2. The source follower output of the VCOIN (demodulator Out) is used with an external resistor of 10 k or more. The INHIBIT input, when high, disables the VCO and source follower to minimize standby power consumption. The zener diode is provided for power supply regulation, if necessary.
Features
s Wide supply voltage range: 3.0V to 18V s Low dynamic power consumption: 70 W (typ.) at fo = 10 kHz, VDD = 5V s VCO frequency: 1.3 MHz (typ.) at VDD = 10V s Low frequency drift: 0.06%/C at VDD = 10V with temperature s High VCO linearity: 1% (typ.)
Applications
* FM demodulator and modulator * Frequency synthesis and multiplication * Frequency discrimination * Data synchronization and conditioning * Voltage-to-frequency conversion * Tone decoding * FSK modulation * Motor speed control
Ordering Code:
Order Number CD4046BCM CD4046BCN Package Number M16A N16E Package Description 16-Lead Small Outline Integrated Circuit (SOIC), JEDEC MS-012, 0.150" Narrow 16-Lead Plastic Dual-In-Line Package (PDIP), JEDEC MS-001, 0.300" Wide
Devices also available in Tape and Reel. Specify by appending the suffix letter "X" to the ordering code.
(c) 2002 Fairchild Semiconductor Corporation
DS005968
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CD4046BC
Connection Diagram
Top View
Block Diagram
FIGURE 1.
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CD4046BC
Absolute Maximum Ratings(Note 1)
(Note 2) DC Supply Voltage (VDD) Input Voltage (VIN) Storage Temperature Range (TS) Power Dissipation (PD) Dual-In-Line Small Outline Lead Temperature (TL) (Soldering, 10 seconds) 260C 700 mW 500 mW
Recommended Operating Conditions (Note 2)
DC Supply Voltage (VDD) Input Voltage (VIN) Operating Temperature Range (TA) 3 to 15 VDC 0 to VDD VDC
-0.5 to +18 VDC -0.5 to VDD +0.5 VDC -65C to +150C
-55C to +125C
Note 1: "Absolute Maximum Ratings" are those values beyond which the safety of the device cannot be guaranteed. They are not meant to imply that the devices should be operated at these limits. The table of "Recommended Operating Conditions" and "Electrical Characteristics" provides conditions for actual device operation. Note 2: VSS = 0V unless otherwise specified.
DC Electrical Characteristics (Note 2)
Symbol IDD Parameter Quiescent Device Current Conditions Pin 5 = VDD, Pin 14 = VDD, Pin 3, 9 = VSS VDD = 5V VDD = 10V VDD = 15V Pin 5 = VDD, Pin 14 = Open, Pin 3, 9 = VSS VDD = 5V VDD = 10V VDD = 15V VOL LOW Level Output Voltage VDD = 5V VDD = 10V VDD = 15V VOH HIGH Level Output Voltage VDD = 5V VDD = 10V VDD = 15V VIL LOW Level Input Voltage Comparator and Signal In VIH HIGH Level Input Voltage Comparator and Signal In IOL LOW Level Output Current (Note 4) IOH HIGH Level Output Current (Note 4) IIN Input Current VDD = 5V, VO = 0.5V or 4.5V VDD = 10V, VO = 1V or 9V VDD = 15V, VO = 1.5V or 13.5V VDD = 5V, VO = 0.5V or 4.5V VDD = 10V, VO = 1V or 9V VDD = 15V, VO = 1.5V or 13.5V VDD = 5V, VO = 0.4V VDD = 10V, VO = 0.5V VDD = 15V, VO = 1.5V VDD = 5V, VO = 4.6V VDD = 10V, VO = 9.5V VDD = 15V, VO = 13.5V All Inputs Except Signal Input VDD = 15V, VIN = 0V VDD = 15V, VIN = 15V CIN PT Input Capacitance Total Power Dissipation Any Input (Note 3) fo = 10 kHz, R1 = 1 M, R2 = , VCOIN = VCC/2 VDD = 5V VDD = 10V VDD = 15V
Note 3: Capacitance is guaranteed by periodic testing. Note 4: IOH and IOL are tested one output at a time.
-55C Min Max Min
+25C Typ Max
+125C Min Max
Units
5 10 20
0.005 0.01 0.015
5 10 20
150 300 600 A
45 450 1200 0.05 0.05 0.05 4.95 9.95 14.95 1.5 3.0 4.0 3.5 7.0 11.0 0.64 1.6 4.2 -0.64 -1.6 -4.2 -0.1 0.1 3.5 7.0 11.0 0.51 1.3 3.4 -0.51 -1.3 -3.4 4.95 9.95 14.95
5 20 50 0 0 0 5 10 15 2.25 4.5 6.25 2.75 5.5 8.25 0.88 2.25 8.8 -0.88 -2.25 -8.8 -10-5 10-5
35 350 900 0.05 0.05 0.05 4.95 9.95 14.95 1.5 3.0 4.0 3.5 7.0 11.0 0.36 0.9 2.4 -0.36 -0.9 -2.4 -0.1 0.1
185 650 1500 0.05 0.05 0.05 V 1.5 3.0 4.0 V V V A
mA
mA
-1.0 1.0 7.5
A pF
0.07 0.6 2.4 mW
3
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CD4046BC
AC Electrical Characteristics (Note 5)
TA = 25C, CL = 50 pF Symbol VCO SECTION IDD Operating Current fo = 10 kHz, R1 = 1 M, R2 = , VDD = 5V VDD = 10V VDD = 15V fMAX Maximum Operating Frequency C1 = 50 pF, R1 = 10 k, R2 = , VDD = 5V VDD = 10V VDD = 15V Linearity VCOIN = 2.5V 0.3V, R1 10 k, VDD = 5V VCOIN = 5V 2.5V, R1 400 k, V DD = 10V VCOIN = 7.5V 5V, R1 1 M, VDD = 15V Temperature-Frequency Stability No Frequency Offset, fMIN = 0 %/C < 5c1/f. VDD R2 = VDD = 5V VDD = 10V VDD = 15V Frequency Offset, fMIN 0 VDD = 5V VDD = 10V VDD = 15V VCOIN Input Resistance VDD = 5V VDD = 10V VDD = 15V VCO Output Duty Cycle VDD = 5V VDD = 10V VDD = 15V tTHL tTHL PHASE COMPARATORS SECTION RIN Input Resistance Signal Input VDD = 5V VDD = 10V VDD = 15V Comparator Input VDD = 5V VDD = 10V VDD = 15V AC-Coupled Signal Input Voltage Sensitivity CSERIES = 1000 pF f = 50 kHz VDD = 5V VDD = 10V VDD = 15V DEMODULATOR OUTPUT 200 400 700 400 800 1400 mV 1 0.2 0.1 3 0.7 0.3 106 10
6
Parameter
Conditions
Min
Typ
Max
Units
VCOIN = VCC/2 20 90 200 A
VCOIN = VDD 0.4 0.6 1.0 0.8 1.2 1.6 1 1 1 % MHz
0.12-0.24 0.04-0.08 0.015-0.03 0.06-0.12 0.05-0.1 0.03-0.06 106 106 106 50 50 50 90 50 45 200 100 80 ns ns % M %/C %/C
VCO Output Transition Time
VDD = 5V VDD = 10V VDD = 15V
M
106
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CD4046BC
AC Electrical Characteristics
Symbol VCOIN- VDEM Offset Voltage Parameter
(Continued)
Conditions Min Typ 1.50 1.50 1.50 0.1 0.6 0.8 6.3 7.0 100 7.7 V % Max 2.2 2.2 2.2 V Units
RS 10 k, VDD = 5V RS 10 k, VDD = 10V RS 50 k, VDD = 15V
Linearity
RS 50 k VCOIN = 2.5V 0.3V, V DD = 5V VCOIN = 5V 2.5V, VDD = 10V VCOIN = 7.5V 5V, VDD = 15V
ZENER DIODE VZ RZ Zener Diode Voltage Zener Dynamic Resistance IZ = 50 A IZ = 1 mA
Note 5: AC Parameters are guaranteed by DC correlated testing.
Phase Comparator State Diagrams
FIGURE 2.
5
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CD4046BC
Typical Waveforms
FIGURE 3. Typical Waveform Employing Phase Comparator I in Locked Condition
FIGURE 4. Typical Waveform Employing Phase Comparator II in Locked Condition
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CD4046BC
Typical Performance Characteristics
Typical Center Frequency vs C1 for R1 = 10 k, 100 k and 1 M
FIGURE 5. Typical Frequency vs C1 for R2 = 10 k, 100 k and 1 M
FIGURE 6.
Note: To obtain approximate total power dissipation of PLL system for no-signal input: Phase Comparator I, PD (Total) = PD (fo) + PD (fMIN) + PD (R S); Phase Comparator II, PD (Total) = PD (fMIN).
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CD4046BC
Typical Performance Characteristics
(Continued) Typical fMAX/fMIN vs R2/R1
FIGURE 7. Typical VCO Power Dissipation at Center Frequency vs R1
FIGURE 8.
Note: To obtain approximate total power dissipation of PLL system for no-signal input: Phase Comparator I, PD (Total) = PD (fo) + PD (fMIN) + PD (RS); Phase Comparator II, PD (Total) = PD (fMIN).
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CD4046BC
Typical Performance Characteristics
(Continued) Typical VCO Power Dissipation at fMIN vs R2
FIGURE 9. Typical Source Follower Power Dissipation vs RS
FIGURE 10.
Note: To obtain approximate total power dissipation of PLL system for no-signal input: Phase Comparator I, PD (Total) = PD (fo) + PD (fMIN) + PD (R S); Phase Comparator II, PD (Total) = PD (fMIN).
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CD4046BC
Typical Performance Characteristics
(Continued)
FIGURE 11. Typical VCO Linearity vs R1 and C1
Note: To obtain approximate total power dissipation of PLL system for no-signal input: Phase Comparator I, PD (Total) = PD (fo) + PD (fMIN) + PD (RS); Phase Comparator II, PD (Total) = PD (fMIN).
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CD4046BC
Design Information
This information is a guide for approximating the value of external components for the CD4046B in a phase-lockedloop system. The selected external components must be within the following ranges: R1, R2 10 k, RS 10 k, C1 50 pF. In addition to the given design information, refer to Figure 5, Figure 6, Figure 7 for R1, R2 and C1 component selections.
Using Phase Comparator I Characteristics VCO Frequency VCO Without Offset R2 = VCO With Offset
Using Phase Comparator II VCO Without Offset R2 = VCO With Offset
For No Signal Input Frequency Lock Range, 2 fL Frequency Capture Range, 2 fC
VCO in PLL system will adjust to center frequency, fo 2 fL = fmax - fmin
VCO in PLL system will adjust to lowest operating frequency, fmin
2 fL = full VCO frequency range
Loop Filter Component Selection For 2 fC, see Ref.
fC = fL
Phase Angle Between Single and Comparator Locks on Harmonics of Center Frequency Signal Input Noise Rejection
90 at center frequency (fo), approximating 0 and 180 at ends of lock range (2 fL) Yes High
Always 0 in lock No Low
11
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CD4046BC
Design Information
Characteristics VCO Component Selection
(Continued) Using Phase Comparator I Using Phase Comparator II VCO Without Offset R2 = Given: fo and fL. Calculate fmin from the equation fmin = fo - fL. Use fmin with Figure 6 to determine R2 and C1. Given: fmax. Calculate fo from the equation Given: fmin and fmax. Use fmin with Figure 6 to to determine R2 and C1. Calculate VCO With Offset
VCO Without Offset R2 = Given: fo. Use fo with Figure 5 to determine R1 and C1.
VCO With Offset
Use fo with Figure 5 to Calculate determine R1 and C1. Use
with Figure 7 from the equation to determine ratio R2/R1 to obtain R1.
Use
with Figure 7 to determine ratio R2/ R1 to obtain R1.
References
G.S. Moschytz, "Miniaturized RC Filters Using Phase-Locked Loop", BSTJ, May, 1965. Floyd Gardner, "Phaselock Techniques", John Wiley & Sons, 1966.
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CD4046BC
Physical Dimensions inches (millimeters) unless otherwise noted
16-Lead Small Outline Integrated Circuit (SOIC), JEDEC MS-012, 0.150" Narrow Package Number M16A
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CD4046BC Micropower Phase-Locked Loop
Physical Dimensions inches (millimeters) unless otherwise noted (Continued)
16-Lead Plastic Dual-In-Line Package (PDIP), JEDEC MS-001, 0.300" Wide Package Number N16E
Fairchild does not assume any responsibility for use of any circuitry described, no circuit patent licenses are implied and Fairchild reserves the right at any time without notice to change said circuitry and specifications. LIFE SUPPORT POLICY FAIRCHILD'S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF THE PRESIDENT OF FAIRCHILD SEMICONDUCTOR CORPORATION. As used herein: 1. Life support devices or systems are devices or systems which, (a) are intended for surgical implant into the body, or (b) support or sustain life, and (c) whose failure to perform when properly used in accordance with instructions for use provided in the labeling, can be reasonably expected to result in a significant injury to the user. www.fairchildsemi.com 14 2. A critical component in any component of a life support device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or system, or to affect its safety or effectiveness. www.fairchildsemi.com


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