Specification AXE40 Oscillator type: Low Phase Noise VHF

Designed and
Manufactured
in Germany
Specification
Oscillator type:
Rev.: 1
AXE40
Low Phase Noise VHF/UHF SPXO (no PLL)
with LVPECL or Sine Wave Output
Parameter
Frequency range
Frequency stability
Initial tolerance
vs. operating temperature range
vs. supply voltage variation
vs. load change
Long term (aging) per year
Frequency adjustment range
Electronic Frequency Control (EFC)
RF output
Signal waveform
Output Level (Option 1 = “S”)
Harmonics (Option 1 = “S”)
Sub-harmonics (Note 4)
Output Levels (Option 1 = “L”)
HIGH (VOH)
LOW (VOL)
Supply voltage VS
Current consumption (steady state)
Operating temperature range
Enclosure (see drawing) (LxWxH)
Weight
Packing
Notes:
1.
2.
3.
4.
5.
6.
min.
typ.
max.
Unit
Condition
400
MHz
ppm
ppm
ppm
ppm
ppm
ppm
(Note 2)
VS ±5%
Load ±5%
@ 40°C
ppm
on request
60
±5
±10
±2
±2
±2
N.A.
Sine Wave
LVPECL Complementary
+0
-30
-40
2.215
1.470
3.15
4.75
2.345
1.595
3.3
5.0
-20
Date: 2014-04-04
dBm
dBc
dBc
2.420
1.745
3.45
5.25
40
+70
20.5x20.5x12.5 max.
8
Palette
Option 1 = “S”
Option 1 = “L”
RL = 50 Ω (Note 3)
V
V
V
V
mA
°C
RL = 50 Ω to VS - 2 V
(Note 5)
Option 2 = “33”
Option 2 = “50”
(Note 6)
mm
g
IEC 60679-3 CO 41
IEC 60286-3
Terminology and test conditions are according to IEC60679-1 and MIL-PRF-55310, unless otherwise stated
Other stabilities over temperature on request
Higher output level on request
For frequencies above 100 MHz sub-harmonics may be present. Please consult factory
Output levels vary 1:1 with VS
Current consumption depends on frequency, supply voltage and output option
Absolute Maximum Ratings
Parameter
min.
max.
Supply Voltage VS
Storage Temperature
-0.5
-55
VS + 10%
+125
GmbH & Co. KG
Roemerring 9
D-74821 Mosbach
Germany
AXE40 Rev.1
Drawing D2
Page 1(3)
Unit
Condition
V
°C
VS to GND
www.axtal.com
fon: +49 (6261) 939834
fax: +49 (6261) 939836
E-mail: [email protected]
Designed and
Manufactured
in Germany
Ordering Code
Option 1
Option 2
[RF output]
[Supply Voltage]
AXE40
S or L
50
Example: AXE40-S-50_Rev.1 – 350.000 MHz
Model
Revision
Frequency [MHz]
Rev.1
350.000
Enclosure drawing
Pin connections:
Pin #
1
2
3
4
5
Symbol
N.C.
Q
RF OUT
GND
N.C.
VS
Function
No Connection (Option S)
RF Output ( Q ) (Option L)
RF Output (Q)
Ground
No Connection
Supply Voltage
Handling and Testing
Parameter
Procedure
Handling and Testing
Processing
Parameter
Application Note AXAN-011
Application Note AXAN-012
Procedure
Electrostatic discharge (ESD)
THD devices
SMD devices
Washable
RoHS compliant
GmbH & Co. KG
Roemerring 9
D-74821 Mosbach
Germany
IEC60749-26
IEC60749-27
Yes
Yes
AXE40 Rev.1
Drawing D2
Page 2(3)
HBM
MM
No
No
Source
www.axtal.com
www.axtal.com
Condition
2000 V
200 V
www.axtal.com
fon: +49 (6261) 939834
fax: +49 (6261) 939836
E-mail: [email protected]
Designed and
Manufactured
in Germany
Environmental conditions
Test
Sealing tests
(if applicable)
Solderability
Resistance to
soldering heat
Shock*
IEC
60068
Part …
2-17
IEC
60679-1
Clause
5.6.2
MIL-STD202G
Method
112E
2-20
2-58
5.6.3
208H
210F
2-27
5.6.8
213B
Vibration,
2-6
5.6.7.1
201A
sinusoidal*
204D
Vibration,
2-64
5.6.7.3
214A
random*
Endurance tests
108A
- ageing
5.7.1
- extended aging
5.7.2
Other environmental conditions on request
MIL-STD810F
Method
MIL-PRF55310D
Clause
3.6.1.2
3.6.52
3.6.48
516.4
3.6.40
516.4-4
3.6.38.1
3.6.38.2
3.6.38.3
3.6.38.4
514.5
4.8.35
Test conditions (IEC)
Gross leak: Test Qc,
Fine leak: Test Qk
Test Ta Method 1
Test Td1 Method 2
Test Td2 Method 2
Test Ea, 3 x per axes 100g,
6 ms half-sine pulse
Test Fc, 30 min per axes,
10 Hz - 55 Hz 0,75mm; 55 Hz - 2 kHz, 10g
Test Fdb
30 days @ 85°C, OCXO @25°C
1000h, 2000h, 8000h @85°C
Data sheet is for information purposes only and may be subject to modifications or may be discontinued without notice.
Revision History
Rev.
Drawing
Date
[dd.mm.yyyy]
1
1
D1
D2
01.10.2012
04.04.2014
GmbH & Co. KG
Roemerring 9
D-74821 Mosbach
Germany
Remarks
Editorial changes
Environmental conditions updated, editorial changes
AXE40 Rev.1
Drawing D2
Page 3(3)
Author
Checked
BN
HH
BN
HH
www.axtal.com
fon: +49 (6261) 939834
fax: +49 (6261) 939836
E-mail: [email protected]

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