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| XG5032HAN Datasheet, PDF (1/2 Pages) Epson Company – LOW-JITTER SAW OSCILLATOR (SPSO) | |||
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Crystal oscillator
LOW-JITTER SAW OSCILLATOR (SPSO)
OUTPUT : HCSL
Product Number (please contact us)
X1M000461xxxx00
XG5032HAN
ï·Frequency range :
ï·Supply voltage
:
ï·Output
:
ï·Function
:
ï·External dimensions :
100 MHz to 200 MHz
2.5 V, 3.3 V
HCSL
Output enable (OE)
5.0 Ã 3.2 Ã 1.4 mm
ï·Low jitter and low phase noise by SAW unit.
Actual size
Specifications (characteristics)
Item
Symbol
Specifications
Output frequency range
f0
100 MHz to 200 MHz
Supply voltage
VCC
Storage temperature
T_stg
Operating temperature
T_use
Frequency tolerance
f_tol
Current consumption
ICC
Disable current
I_dis
Symmetry
SYM
Output voltage
VOH
VOL
Crossing voltage
VCR
L_HCSL
Output load condition
RS
CL
Input voltage
VIH
VIL
differential output
rise slew rate/ fall slew rate
Rr / Rf
Start-up time
t_str
Phase Jitter
tPJ
Frequency aging
f_aging
C:3.3 V ï±0.33 V , D:2.5 V ï±0.125 V
-55 ï°C to +125 ï°C
A:0 ï°C to +70 ï°C , B:-20 ï°C to +70 ï°C , D:-5 ï°C to +85 ï°C
J: ï± 50 ï´ 10-6 ,L: ï±100 ï´ 10-6
35 mA Max.
15 mA Max.
45 % to 55 %
0.75 V Typ., 0.66 V to 0.85 V
0 V Typ., -0.15 V to 0.15 V
0.25 V to 0.55 V
50 â¦
33 â¦
2 pF
70 % VCC Min.
30 % VCC Max.
1 V/n to 4 V/ns
10 ms Max.
0.3 ps Max.
0.4 ps Max.
0.2 ps Max.
N:ï± 10 ï´ 10-6 / year Max.
A: Included in Frequency tolerance
Conditions / Remarks
Please contact us for inquiries regarding available
frequencies.
Store as bare product.
OE= VCC, with output load
OE=GND
At outputs crossing point
DC characteristics, single output
As per measurement circuit below.
OE terminal
Between -0.15 V and 0.15 V of differential output
Time at minimum supply voltage to be 0 s
f0 ⤠160 MHz
160 MHz < f0 ⤠175 MHz
f0 > 175 MHz
Offset frequency:
12 kHz to 20 MHz
First year
10 years
+25 ï°C, VCC =2.5 V,3.3 V
Product Name
(Standard form)
XG5032 HAN 100.000000MHz C J A A (â¤â¥â¦:JBA,JDA are not available)
â â¡
â¢
â£â¤â¥â¦
â Model â¡Output(H: HCSL) â¢Frequency
â¤Frequency tolerance
J
±50 à 10-6
L
±100 à 10-6
â£Supply voltage (C: 3.3 V Typ., D: 2.5 V Typ.) â¤Frequency tolerance â¥Operating temperature
â¦Frequency aging (A: Frequency tolerance include aging, N: Frequency tolerance exclude aging)
â¥Operating temp.
A 0 to +70°C
B -20 to +70°C
D -5 to +85°C
Measurement circuit
A
B y -p a ss
capacitor 2
Power
supply 1
Vcc
OE
OE pin *
OUT OUT
GND GND
RS=33 â¦
RS=33 â¦
L_HCSL
=50 â¦
B y -p a ss
capacitor 1
L ï½ fo
0.1c
*
0.475 ε r ï« 0 .67
Zo=50 Ω
Zo=50 Ω
Test Point
L_HCSL
=50 â¦
CL=2 pF
CL=2 pF
By-pass capacitor 1 (approx. 0.01μF to 0.1 μF) places
closely between Vcc and GND.
By-pass capacitor 2 (approx. 10 μF) places closely
between power supply terminals on the board.
Output line length L is estimated as follows
L ï½ fo
0.1c
0.475εr ï« 0.67
c : Velocity of light in a vacuum
εr : Relative dielectric constant of the board
fo : Output frequency
External dimensionsç
#6 #5 #4
E 100.00H
5U 31OA
#1 #2 #3
5.0 ï±0.2
0.64
#4 #5
#6
#3 #2
#1
1.27
(Unit:mm)ç
Pin map
Pin
1
2
3
4
5
6
Connection
OE
GND
GND
OUT
OUT
VCC
OE pin = HIGH : Specified frequency output.
OE pin = LOW : Output is high impedance
2.54
#2 and #3 are connected to the cover.
Footprint (Recommended)ç
0.84
(Unit:mm)ç
1.27
2.54
To maintain stable operation,
provide a 0.01μF to 0.1 µF
by-pass capacitor at a location
as near as possible to the
power source terminal of the
crystal product (between VCC -
GND).
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