CX5032SB12000F0FLJZZ AVX Corporation, CX5032SB12000F0FLJZZ Datasheet - Page 21

CRYSTAL, SM, CX-96F, 12MHZ

CX5032SB12000F0FLJZZ

Manufacturer Part Number
CX5032SB12000F0FLJZZ
Description
CRYSTAL, SM, CX-96F, 12MHZ
Manufacturer
AVX Corporation
Series
CX5032SBr
Datasheet

Specifications of CX5032SB12000F0FLJZZ

Operating Temperature Range
-30°C To +85°C
Crystal Mounting Type
SMD
Crystal Case Type
5
Frequency
12MHz
Frequency Tolerance
± 10ppm
Load Capacitance
10pF
Frequency Stability
± 10ppm
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
The oscillation start-up conditions are described as
and in order to oscillate the crystal unit accurately, it must be designed such that the negative resistance of the oscillation
circuit becomes bigger comparing with the resonance resistance value at the time of loading. This ratio is called oscillation
margin degree M
For oscillation circuit designing conditions, it is recommended that an oscillation circuit be designed using a negative
resistance of a value five to ten times or more larger than RL calculated from the resonance resistance specification value.
The mutual conductance of the oscillation circuit decreases after the oscillation has started to continuously compensate for
the power loss due to the load resonance resistance of the crystal unit, which continues oscillation.
The frequency condition is given as follows:
As shown in the following figure, the reactance of the crystal unit varies to a value matching the load capacitance of the
oscillation circuit C
In a steady oscillation state, the load resonance resistance is given as follows:
R
M
R
X
L
L
L
OSC
  R 
 X
  R 
  R  / R
C
Handling Notes
, X
L
 X
OSC
C
L
L
 0
 X
and it is one of critical factors when designing the oscillation circuit and is described as below.
+ X
– X
5
C
. Thus an oscillation frequency is determined.
f
s
f
L
f
- 54 -
p
–1/
Le
C
L
Frequency
f
f
f
s
L
p
: Series resonance frequency
: Load resonance frequency
: Parallel resonance frequency

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