TI DS8908

DS8908
DS8908B AM/FM Digital Phase-Locked Loop Frequency Synthesizer
Literature Number: SNOSBD1A
DS8908B AM/FM Digital Phase-Locked
Loop Frequency Synthesizer
General Description
current if the VCO frequency is low. The low noise operational amplifier provided has a high impedance JFET input
and a large output voltage range. The op amp’s negative
input is common with the charge pump output and its positive input is internally biased.
Features
Y
Y
Y
Y
Uses inexpensive 3.96 MHz reference crystal
FIN capability greater than 120 MHz allows direct synthesis at FM frequencies
FM resolution of either 10 kHz or 20 kHz allows usage
of 10.7 MHz ceramic filter distribution
Serial data entry for simplified control
50 Hz output for time-of-day reference driven from separate low power VCCM
2 open collector buffered outputs for controlling various
radio functions or loop gain
Separate AM and FM inputs; AM input has 15 mV (typical) hysteresis
Programmable charge pump current sources enable adjustment of system loop gain
Operational amplifier provides high impedance load to
charge pump output and a wide voltage range for the
VCO input
e
Y
et
The DS8908B is a PLL synthesizer designed specifically for
use in AM/FM radios. It contains the reference oscillator, a
phase comparator, a charge pump, an operational amplifier,
a 120 MHz ECL/I2L dual modulus programmable divider,
and a 19-bit shift register/latch for serial data entry. The
device is designed to operate with a serial data controller
generating the necesary division codes for each frequency,
and logic state information for radio function inputs/outputs.
A 3.96 MHz pierce oscillator and divider chain generate a
1.98 MHz external controller clock, a 20 kHz, 10 kHz, 9 kHz,
and a 1 kHz reference signals, and a 50 Hz time-of-day
signal. The oscillator and divider chain are sourced by the
VCCM pin thus providing a low power controller clock drive
and time-of-day indication when the balance of the PLL is
powered down.
The 21-bit serial data steram is transferred between the frequency synthesizer and the controller via a 3-wire bus system comprised of a data line, a clock line, and an enable
line.
The first 2 bits in the serial data stream address the synthesizer thus permitting other devices such as display drivers to
share the same bus. The next 14 bits are used for the
PLL(N a 1) divide code. The 15th bit is used internally to
select the AM or FM local oscillator input. A high level on
this bit enables the FM input and a low level enables the AM
input. The 16th and 17th bits are used to select one of the 4
reference frequencies. The 18th and 19th bits are connected via latches to open collector outputs. These outputs can
be used to drive radio functions such as gain, mute, AM,
FM, or charge pump current source levels.
The PLL consists of a 14-bit programmable I2L divider, an
ECL phase comparator, an ECL dual modulus (p/p a 1) prescaler, a high speed charge pump, and an operational amplifier. The programmable divider divides by (N a 1), N being
the number loaded into the shift register. The programmable
divider is clocked through a d -/8 prescaler by the AM input
or through a d $*/64 prescaler by the FM input. The AM input
will work at frequencies up to 15 MHz, while the FM input
works up to 120 MHz. The VCO can be tuned with a frequency resolution of either 1 kHz, 9 kHz, 10 kHz, or 20 kHz.
The buffered AM and FM inputs are self-biased and can be
driven directly by the VCO through a capacitor. The ECL
phase comparator produces very accurate resolution of the
phase difference between the input signal and the reference
oscillator. The high speed charge pump consists of a
switchable constant current source and sink. The charge
pump can be programmed to deliver from 75 mA to 750 mA
of constant current by connection of an external resistor
from pin RPROGRAM to ground or the open collector bit outputs. Connection of programming resistors to the bit outputs
enables the controller to adjust the loop gain for the particular reference frequency selected. The charge pump will
source current if the VCO frequency is high and sink
Y
Y
Y
bs
ol
Y
Connection Diagram
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Dual-In-Line Package
Top View
Order Number DS8908BN
See NS Package Number N20A
TL/F/5111 – 1
TRI-STATEÉ is a registered trademark of National Semiconductor Corp.
C1995 National Semiconductor Corporation
TL/F/5111
RRD-B30M105/Printed in U. S. A.
DS8908B AM/FM Digital Phase-Locked Loop Frequency Synthesizer
June 1990
Absolute Maximum Ratings (Note 1)
If Military/Aerospace specified devices are required,
please contact the National Semiconductor Sales
Office/Distributors for availability and specifications.
b 65§ C to a 150§ C
Storage Temperature Range
Lead Temperature (Soldering, 4 seconds)
260§ C
Supply Voltage
(VCC1) (VCCM)
(VCC2)
Input Voltage
Output Voltage
Operating Conditions
7V
17V
7V
7V
VCC1
VCC2
VCCM
Temperature, TA
Min
4.5
Max
5.5
15.0
5.5
a 85
VCC1 a 1.5
3.5
b 40
Units
V
V
V
§C
DC Electrical Characteristics (Notes 2 and 3)
Symbol
Parameter
Conditions
Min
VIH
Logical ‘‘1’’ Input Voltage
IIH
Logical ‘‘1’’ Input Current
VIL
Logical ‘‘0’’ Input Voltage
IIL
Logical ‘‘0’’ Input Current
Data, Clock, and ENABLE Inputs, VIN e 0V
IOH
Logical ‘‘1’’ Output Current
All Bit Outputs, 50 Hz Output
VOH e 5.5V
1.98 MHz Output
VOH e 2.4V, VCCM e 4.5V
Logical ‘‘0’’ Output Voltage
All Bit Outputs
IOL e 5 mA
Max
Units
0
10
mA
0.8
V
b5
b 25
mA
V
e
VIN e 2.7V
50
mA
b 250
mA
0.5
V
et
VOL
Typ
2.0
IOL e 250 mA
1.98 MHz Output
IOL e 20 mA, TA l 70§ C
IOL e 20 mA, TA s 70§ C
ICC1
Supply Current (VCC1)
All Bit Outputs High
ICCM
VCCM Supply Current
VCCM e 5.5V, All Other Pins Open
IOUT
Charge Pump Ougtput Current
3.33k s RPROG s 33.3k
IOUT Measured between
Pin 17 and Pin 18
IPROG e VCC1/2 RPROG
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50 Hz Output, 1.98 MHz Output
0.5
V
0.3
0.4
V
V
160
mA
2.5
4.0
mA
Pump Up
b 20
IPROG
a 20
%
Pump Down
b 20
IPROG
a 20
%
0
11
nA
6.7
11
TRI-STATEÉ
ICC2
VCC2 Supply Current
VCCM e 5V, VCC1 e 5.5V, VCC2 e 15V
All Other Pins Open
mA
OPVOH
Op Amp Minimum High Level
VCC1 e 4.5V, IOH e b750 mA
OPVOL
Op Amp Maximum Low Level
VCC1 e 5.5V, IOL e 750 mA
0.6
V
CPOBIAS
Charge Pump Bias Voltage
Delta
CPO Shorted to Op Amp Output
CPO e TRI-STATE
Op Amp IOL: 750 mA vs b750 mA
100
mV
VCC2 b0.4
V
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AC Electrical Characteristics VCC e 5V, TA e 25§ C, tr s 10 ns, tf s 10 ns
Symbol
Parameter
Conditions
VIN(MIN)(F)
FIN Minimum Signal Input
AM and FM Inputs, b40§ C s TA s 85§ C
VIN(MAX)(F)
FIN Maximum Signal Input
AM and FM Inputs, b40§ C s TA s 85§ C
FOPERATE
Operating Frequency Range
(Sine Wave Input)
VIN e 100 mV rms
b 40§ C s TA s 85§ C
Min
Typ
Max
Units
20
100
mV(rms)
1000
1500
mV(rms)
AM
0.5
15
MHz
FM
80
120
MHz
RIN(FM)
AC Input Resistance, FM
120 MHz, VIN e 100 mV rms
600
X
RIN(AM)
AC Input Resistance, AM
15 MHz, VIN e 100 mV rms
1000
X
CIN
Input Capacitance, FM and AM
VIN e 120 MHz (FM), 15 MHz (AM)
tEN1
Minimum ENABLE High
Pulse Width
2
3
6
10
pF
625
1250
ns
AC Electrical Characteristics VCC e 5V, TA e 25§ C, tr s 10 ns, tf s 10 ns (Continued)
Typ
Max
Units
tEN0
Minimum ENABLE Low
Pulse Width
375
750
ns
tCLKEN0
Minimum Time before ENABLE
Goes Low That CLOCK Must
Be Low
b 50
0
ns
Minimum Time after ENABLE
Goes Low That CLOCK Must
Remain Low
275
550
ns
Minimum Time before ENABLE
Goes High That Last Positive
CLOCK Edge May Occur
300
600
ns
Minimum Time after ENABLE
Goes High before an Unused
Positive CLOCK Edge May Occur
175
350
ns
tEN0CLK
tCLKEN1
tEN1CLK
Parameter
Conditions
Minimum CLOCK High
Pulse Width
tCLKL
Minimum CLOCK Low
Pulse Width
tDS
Minimum DATA Set-Up Time,
Minimum Time before CLOCK
That DATA Must Be Valid
Minimum DATA Hold Time,
Minimum Time after CLOCK
That DATA Must Remain Valid
275
550
ns
400
800
ns
150
300
ns
400
800
ns
bs
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tDH
e
tCLKH
Min
et
Symbol
Note 1: ‘‘Absolute Maximum Ratings’’ are those values beyond which the safety of the device cannot be guaranteed. Except for ‘‘Operating Temperature Range’’
they are not meant to imply that the devices should be operated at these limits. The table of ‘‘Electrical Characteristics’’ provides conditions for actual device
operation.
Note 2: Unless otherwise specified min/max limits apply across the b 40§ C to a 85§ C temperature range for the DS8908B.
Note 3: All currents into device pins shown as positive, out of device pins as negative, all voltage referenced to ground unless otherwise noted. All values shown as
max or min on absolute value basis.
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Schematic Diagrams (DS8908B AM/FM PLL Typical Input/Output Schematics)
TL/F/5111 – 4
TL/F/5111–2
TL/F/5111 – 3
3
Schematic Diagrams (Continued)
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TL/F/5111 – 6
TL/F/5111 – 7
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TL/F/5111–5
TL/F/5111 – 8
4
Schematic Diagrams (Continued)
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TL/F/5111 – 9
et
Timing Diagrams*
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ENABLE vs CLOCK
TL/F/5111 – 10
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CLOCK vs DATA
TL/F/5111 – 11
5
Timing Diagrams* (Continued)
AM/FM Frequency Synthesizer (Scan Mode)
e
TL/F/5111 – 12
*Timing diagrams are not drawn to scale. Scale within any one drawing may not be consistent, and intervals are defined positive as drawn.
These data bits are interpreted as follows:
Data Bit Position
Data Interpretation
Last
Bit 19 Output (Pin 2)
2nd to Last
Bit 18 Output (Pin 1)
3rd to Last
Ref. Freq. Select Bit(1)17
4th to Last
Ref. Freq. Select Bit(1)16
5th to Last
AM/FM Select Bit 15
6th to Last
(213)
7th to Last
(212)
8th to Last
(211)
9th to Last
(210)
10th to Last
(29)
11th to Last
(28)
12th to Last
(27)
d N(2)
13th to Last
(26)
5
14th to Last
(2 )
15th to Last
(24)
16th to Last
(23)
17th to Last
(22)
18th to Last
(21)
19th to Last
LSB of d N(20)
bs
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SERIAL DATA ENTRY INTO THE DS8908B
Serial information entry into the DS8908B is enabled by a
low level on the ENABLE input. One binary bit is then accepted from the DATA input with each positive transition of
the CLOCK input. The CLOCK input must be low for the
specified time preceding and following the negative transition of the ENABLE input.
The first two bits accepted following the negative transition
of the ENABLE input are interpreted as address. If these
address bits are not 1,1 no further information will be accepted fromt he DATA inputs, and the internal data latches
will not be changed when ENABLE returns high.
If these first two bits are 1,1, then all succeeding bits are
accepted as data, and are shifted successively into the internal shift register as long as ENABLE remains low.
Any data bits preceding the 19th to last bit will be shifted
out, and thus are irrelevant. Data bits are counted as any
bits following two valid address bits (1,1) with the ENABLE
low. When the ENABLE input returns high, any further serial
data entry is inhibited. Upon this positive transition, the data
in the internal shift register is transferred into the internal
data latches. Note that until this time, the states of the internal data latches have remained unchanged.
-
Note 1: See Reference Frequency Select Truth Table.
Note 2: The actual divide code is N a 1, ie., the number loaded plus 1.
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Truth Table
Reference Frequency Selection Truth Table
Reference
Frequency
Serial Data
Bit 16
Bit 17
(kHz)
1
1
0
0
1
0
1
0
20
10
9
1
6
Typical Application Additional application notes are located at the back of section 11.
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Electronically Tuned Radio Controller System; Direct Drive LED
TL/F/5111 – 13
7
8
*Sections operating from VCCM supply.
**Address (1,1)
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AM/FM PLL/Synthesizer (Serial Data 20-Pin Package)
TL/F/5111 – 14
Logic Diagram
9
e
et
bs
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Molded Dual-In-Line Package (N)
Order Number DS8908BN
NS Package Number N20A
LIFE SUPPORT POLICY
NATIONAL’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 NATIONAL
SEMICONDUCTOR CORPORATION. As used herein:
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DS8908B AM/FM Digital Phase-Locked Loop Frequency Synthesizer
Physical Dimensions inches (millimeters)
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 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.
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