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PDF CDP6872E Data sheet ( Hoja de datos )

Número de pieza CDP6872E
Descripción Low Power Crystal Oscillator
Fabricantes Intersil Corporation 
Logotipo Intersil Corporation Logotipo



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No Preview Available ! CDP6872E Hoja de datos, Descripción, Manual

CDP6872
January 1996
Low Power Crystal Oscillator
Features
Description
• Single Supply Operation at 32kHz . . . . . . . 2.0V to 7.0V
• Operating Frequency Range. . . . . . . . 10kHz to 10MHz
• Supply Current at 32kHz . . . . . . . . . . . . . . . . . . . . . .5µA
• Supply Current at 1MHz . . . . . . . . . . . . . . . . . . . .130µA
• Drives 2 CMOS Loads
• Only Requires an External Crystal for Operation
Applications
• Battery Powered Circuits
• Remote Metering
• Embedded Microprocessors
• Palm Top/Notebook PC
The CDP6872 is a very low power crystal-controlled oscillators
that can be externally programmed to operate between 10kHz
and 10MHz. For normal operation it requires only the addition
of a crystal. The part exhibits very high stability over a wide
operating voltage and temperature range.
The CDP6872 also features a disable mode that switches
the output to a high impedance state. This feature is useful
for minimizing power dissipation during standby and when
multiple oscillator circuits are employed.
Ordering Information
PART
NUMBER
CDP6872E
CDP6872M
TEMPERATURE
RANGE
-40oC to +85oC
-40oC to +85oC
PACKAGE
8 Lead Plastic DIP
8 Lead Plastic SOIC (N)
CDP6872H
-40oC to +85oC DIE
Pinout
CDP6872 (PDIP, SOIC)
TOP VIEW
VDD 1
OSC IN 2
OSC OUT 3
VSS 4
8 ENABLE
7 FREQ 2
6 FREQ 1
5 OUTPUT
Typical Application Circuit
VDD
0.1µf
32.768kHz
CRYSTAL
18
27
CDP6872
36
45
32.768kHz
CLOCK
32.768kHz MICROPOWER CLOCK OSCILLATOR
CAUTION: These devices are sensitive to electrostatic discharge; follow proper IC Handling Procedures.
http://www.intersil.com or 407-727-9207 | Copyright © Intersil Corporation 1999
1
File Number 4069

1 page




CDP6872E pdf
CDP6872
Crystal Selection
Frequency Fine Tuning
For general purpose applications, a Parallel Mode Crystal is
a good choice for use with the CDP6872. However for
applications where a precision frequency is required, the
designer needs to consider other factors.
Crystals are available in two types or modes of oscillation,
Series and Parallel. Series Mode crystals are manufactured
to operate at a specified frequency with zero load capaci-
tance and appear as a near resistive impedance when oscil-
lating. Parallel Mode crystals are manufactured to operate
with a specific capacitive load in series, causing the crystal
to operate at a more inductive impedance to cancel the load
capacitor. Loading a crystal with a different capacitance will
“pull” the frequency off its value.
The CDP6872 has 4 operating frequency ranges. The higher
three ranges do not add any loading capacitance to the
oscillator circuit. The lowest range, 10kHz to 100kHz, auto-
matically switches in two 15pF capacitors onto OSC IN and
OSC OUT to eliminate potential start-up problems. These
capacitors create an effective crystal loading capacitor equal
to the series combination of these two capacitors. For the
CDP6872, in the lowest range, the effective loading capaci-
tance is 7.5pF. Therefore the choice for a crystal, in this
range, should be a Parallel Mode crystal that requires a
7.5pF load.
In the higher 3 frequency ranges, the capacitance on OSC
IN and OSC OUT will be determined by package and layout
parasitics, typically 4 to 5pF. Ideally the choice for crystal
should be a Parallel Mode set for 2.5pF load. A crystal man-
ufactured for a different load will be “pulled” from its nominal
frequency (see Crystal Pullability).
+5V
C1 C2
Two Methods will be discussed for fine adjustment of the
crystal frequency. The first and preferred method (Figure 2),
provides better frequency accuracy and oscillator stability
than method two (Figure 3). Method one also eliminates
start-up problems sometimes encountered with 32kHz tun-
ing fork crystals.
For best oscillator performance, two conditions must be met:
the capacitive load must be matched to both the inverter and
crystal to provide ideal conditions for oscillation, and the fre-
quency of the oscillator must be adjustable to the desired
frequency. In Method two these two goals can be at odds
with each other; either the oscillator is trimmed to frequency
by de-tuning the load circuit, or stability is increased at the
expense of absolute frequency accuracy.
Method one allows these two conditions to be met indepen-
dently. The two fixed capacitors, C1 and C2, provide the opti-
mum load to the oscillator and crystal. C3 adjusts the
frequency at which the circuit oscillates without appreciably
changing the load (and thus the stability) of the system.
Once a value for C3 has been determined for the particular
type of crystal being used, it could be replaced with a fixed
capacitor. For the most precise control over oscillator fre-
quency, C3 should remain adjustable.
This three capacitor tuning method will be more accurate
and stable than method two and is recommended for 32kHz
tuning fork crystals; without it they may leap into an overtone
mode when power is initially applied.
Method two has been used for many years and may be pre-
ferred in applications where cost or space is critical. Note
that in both cases the crystal loading capacitors are con-
nected between the oscillator and VDD; do not use VSS as an
AC ground. The Simplified Block Diagram shows that the
oscillating inverter does not directly connect to VSS but is ref-
erenced to VDD and VRN. Therefore VDD is the best AC
ground available.
XTAL
2
OSC IN
C3
3
OSC OUT
1
VDD
CDP6872
+
-
VREG
FIGURE 2.
+5V
C1 C2
XTAL
2
OSC IN
3
OSC OUT
1
VDD
+
-
VREG
CDP6872
FIGURE 3.
5

5 Page





CDP6872E arduino
CDP6872
Typical Performance Curves (Continued)
FIN = 5MHz, F1 = 0, F2 = 0, CL = 30pF, VCC = 5V
60
55
XTAL AT +25oC
50
45
40
GENERATOR(1VP-P)
35
30
-100
-50 0
50 100
TEMPERATURE (oC)
FIGURE 23. DUTY CYCLE vs TEMPERATURE
150
F1 = F2 = 0, VDD = 5V, CL = 18pF, C1 = C2 = 0
70
DATA COLLECTED USING CRYSTALS
AT EACH FREQUENCY
65
60
55
50
F1 = 0, F2 = 0 RECOMMENDED FOR 5MHz TO 10MHz RANGE
45
0 5 10 15 20
FREQUENCY (MHz)
FIGURE 25. DUTY CYCLE vs FREQUENCY
F1 = 1, F2 = 0, VDD = 5V, CL = 18pF, C1 = C2 = 0
65
DATA COLLECTED USING CRYSTALS
AT EACH FREQUENCY
60
55
50
45
F1 = 1, F2 = 0 RECOMMENDED FOR 100kHz TO 1MHz RANGE
40
0 500 1000 1500 2000 2500 3000 3500
FREQUENCY (kHz)
FIGURE 27. DUTY CYCLE vs FREQUENCY
FIN = 100kHz, F1 = 1, F2 = 1, CL = 30pF, VCC = 5V
70
GENERATOR(1VP-P)
60
50 XTAL AT +25oC
40
30
20
10
-100
-50 0
50 100
TEMPERATURE (oC)
FIGURE 24. DUTY CYCLE vs TEMPERATURE
70 F1 = 0, F2 = 1, VDD = 5V, CL = 18pF, C1 = C2 = 0
DATA COLLECTED USING CRYSTALS
AT EACH FREQUENCY
65
150
60
55
50
45
F1 = 0, F2 = 1 RECOMMENDED FOR 1MHz TO 5MHz RANGE
40
012345
6 7 89
FREQUENCY (MHz)
FIGURE 26. DUTY CYCLE vs FREQUENCY
F1 = F2 = 1, VDD = 5V, CL = 18pF, C1 = C2 = 0
47
DATA COLLECTED USING CRYSTALS
46 AT EACH FREQUENCY
45
44
43
42
41 F1 = 1, F2 = 1 RECOMMENDED
FOR 10kHz TO 100kHz RANGE
40
0 50 100 150 200
FREQUENCY (kHz)
FIGURE 28. DUTY CYCLE vs FREQUENCY
Refer to Test Circuit (Figure 1).
11

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