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Function generator
Philips Semiconductors Linear Products
Product specification
Function generator
NE/SE566
DESCRIPTION
The NE/SE566 Function Generator is a voltage-controlled oscillator
of exceptional linearity with buffered square wave and triangle wave
outputs. The frequency of oscillation is determined by an external
resistor and capacitor and the voltage applied to the control terminal.
The oscillator can be programmed over a ten-to-one frequency
range by proper selection of an external resistance and modulated
over a ten-to-one range by the control voltage, with exceptional
linearity.
PIN CONFIGURATIONS
D, N Packages
GROUND
1
2
3
4
8
V+
NC
SQUARE WAVE OUTPUT
7
C
1
R
1
6
TRIANGLE WAVE OUTPUT
5
MODULATION INPUT
TOP VIEW
FEATURES
•
Wide range of operating voltage (up to 24V; single or dual)
APPLICATIONS
•
•
High linearity of modulation
Tone generators
•
Highly stable center frequency (200ppm/
°
C typical)
•
Frequency shift keying
•
Highly linear triangle wave output
•
FM modulators
•
Frequency programming by means of a resistor or capacitor,
voltage or current
•
Clock generators
•
•
Frequency adjustable over 10-to-1 range with same capacitor
Signal generators
•
Function generators
ORDERING INFORMATION
DESCRIPTION
TEMPERATURE RANGE
ORDER CODE
DWG #
8-Pin Plastic Small Outline (SO) Package
0 to +70
°
C
NE566D
0174C
14-Pin Ceramic Dual In-Line Package (CERDIP)
0 to +70
°
C
NE566F
0581B
8-Pin Plastic Dual In-Line Package (DIP)
0 to +70
°
C
NE566N
0404B
8-Pin Plastic Dual In-Line Package (DIP)
-55
°
C to +125
°
C
SE566N
0404B
BLOCK DIAGRAM
V+
R
1
6
8
V
C
CURRENT
SOURCES
SCHMITT
TRIGGER
BUFFER
AMPLIFIER
3
MODULATION
INPUT
5
BUFFER
AMPLIFIER
4
7
C
1
April 15, 1992
398
853-0910 06454
Philips Semiconductors Linear Products
Product specification
Function generator
NE/SE566
EQUIVALENT SCHEMATIC
6
R
1
(E
XTERN
AL)
8
5
V+
V
C
7
C
1
(EXTER–
NAL)
4
3
5k
W
1
GROUND
ABSOLUTE MAXIMUM RATINGS
SYMBOL
PARAMETER
RATING
UNIT
V+
Maximum operating voltage
26
V
V
IN
, V
C
Input voltage
3
V
P-P
T
STG
Storage temperature range
-65 to +150
°
C
T
A
Operating ambient temperature range
NE566
0 to +70
°
C
SE566
-55 to +125
C
P
D
Power dissipation
300
mW
April 15, 1992
399
°
Philips Semiconductors Linear Products
Product specification
Function generator
NE/SE566
DC ELECTRICAL CHARACTERISTICS
T
A
=25
°
C, V
CC
=
±
6V, unless otherwise specified.
SE566
NE566
SYMBOL
PARAMETER
UNIT
SYMBOL
PARAMETER
UNIT
Min
Typ
Max
Min
Typ
Max
General
T
A
Operating ambient temperature range
-55
125
0
70
C
V
CC
Operating supply voltage
±
6
±
12
±
6
±
12
V
I
CC
Operating supply current
7
12.5
7
12.5
mA
VCO
1
f
MAX
Maximum operating frequency
1
1
MHz
Frequency drift with temperature
500
600
ppm/
°
C
Frequency drift with supply voltage
0.1
1
0.2
2
%/V
Control terminal input impedance
2
1
1
M
W
FM distortion (
±
10% deviation)
0.2
0.75
0.4
1.5
%
Maximum sweep rate
1
1
MHz
Sweep range
10:1
10:1
Output
Triangle wave output
impedance
50
50
W
voltage
1.9
2.4
1.9
2.4
V
P-P
linearity
0.2
0.5
%
Square wave input
impedance
50
50
W
voltage
5
5.4
5
5.4
V
P-P
duty Cycle
45
50
55
40
50
60
%
t
R
Rise time
20
20
ns
t
F
Fall Time
50
50
ns
NOTES:
1. The external resistance for frequency adjustment (R
1
) must have a value between 2k
W
and 20k
W
.
2. The bias voltage (V
C
) applied to the control terminal (Pin 5) should be in the range V+
3
V
C
3
V+.
April 15, 1992
400
°
Philips Semiconductors Linear Products
Product specification
Function generator
NE/SE566
TYPICAL PERFORMANCE CHARACTERISTICS
Normalized Frequency as a
Function of Control Voltage
Normalized Frequency as a
Function of Resistance (R1)
Change in Frequency as a
Function of Temperature
2.5
100
+2.5
+2.0
+1.5
+1.0
+0.5
0
–0.5
–1.0
–1.5
–2.0
–2.5
–75 –50 –25 0 +25 +50 +75 +100 +125
TEMPERATURE — (
o
C)
V+ = 12 VOLTS
V+ = 12 VOLTS
V
C
= 10 VOLTS
2.0
50
V+ = 12 VOLTS
V
C
= 10 VOLTS
20
1.5
TYPICAL
10
1.0
5
0.5
2
0
0.5 1.0 1.5 2.0
2.5 3.0
1
0.1 0.2
0.5
1
2
5
10
CONTROL VOLTAGE
(BETWEEN PIN 8 AND PIN 5) — VOLTS
NORMALIZED FREQUENCY
Power Supply Current as a
Function of Supply Voltage
Frequency as a Function
of Capacitance (C1)
VCO Output Waveforms
20.0
10
V+ = 12 VOLTS
6
5
4
R
t
= 4k
W
V+ = 12 VOLTS
V
C
= 10 VOLTS
R
1
= 4k
MAXIMUM
17.5
1.0
15.0
TYPICAL
0.1
12.5
12
10
8
6
4
0.01
10.0
7.5
0.001
5
0.0001
10
13
16
19
22
25
1
10 10
2
10
3
10
4
10
5
10
6
SUPPLY VOLTAGE — V
FREQUENCY
—
Hz
OPERATING INSTRUCTIONS
The NE/SE566 Function Generator is a general purpose
voltage-controlled oscillator designed for highly linear frequency
modulation. The circuit provides simultaneous square wave and
triangle wave outputs at frequencies up to 1MHz. A typical
connection diagram is shown in Figure 1. The control terminal (Pin
5) must be biased externally with a voltage (V
C
) in the range
V+
f
O
2 [(V
)
(V
C
)]
R
1
C
1
V
V+
where V
CC
is the total supply voltage. In Figure 1, the control
voltage is set by the voltage divider formed with R
2
and R
3
. The
modulating signal is then AC coupled with the capacitor C
2
. The
modulating signal can be direct coupled as well, if the appropriate
DC bias voltage is applied to the control terminal. The frequency is
given approximately by
V
C
3
and R
1
should be in the range 2k
W
< R
1
<20k
W
.
A small capacitor (typically 0.001
m
F) should be connected between
Pins 5 and 6 to eliminate possible oscillation in the control current
source.
If the VCO is to be used to drive standard logic circuitry, it may be
desirable to use a dual supply as shown in Figure 2. In this case the
square wave output has the proper DC levels for logic circuitry. RTL
can be driven directly from Pin 3. For DTL or TTL gates, which
require a current sink of more than 1mA, it is usually necessary to
connect a 5k
W
resistor between Pin 3 and negative supply. This
increases the current sinking capability to 2mA. The third type of
April 15, 1992
401
3
Philips Semiconductors Linear Products
Product specification
Function generator
NE/SE566
interface shown uses a saturated transistor between the 566 and
the logic circuitry. This scheme is used primarily for TTL circuitry
which requires a fast fall time (<50ns) and a large current sinking
capability.
R
1
5K
1.5K
.001
m
F
V
+
RTL
DTL OR T
2
L
WITH FAST
FALL TIME
10K
R
2
1.5K
R
1
6
8
.001
F
3
m
V
C
5
SE/NE
566
DTL
&
T
2
L
10K
7
1
4
6
8
C
2
5
SE/NE
566
4
3
5K
V
C
C
1
7
1
R
3
10K
–6 VOLTS
C
1
Figure 2.
Figure 1.
April 15, 1992
402
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