HIGH PERFORMANCE DIFFERENTIAL OSCILLATOR

PETERMANN-TECHNIK GmbH
Lechwiesenstr. 13 ∙ D-86899 ∙ Landsberg am Lech
Tel: +49/8191/305395 ∙ Fax: +49/8191/305397
[email protected] ∙ www.petermann-technik.com
HIGH PERFORMANCE DIFFERENTIAL OSCILLATOR
SERIES „DLPO-4“
220—625MHz
FEATURES
APPLICATIONS
+
+
+
+
+
+
+
+
+
+
+ 10GB Ethernet, SONET, SATA, SAS, Fibre Channel, PCI Express,
+ Telecom, networking, instrumentation, storage, servers,
+ etc.
100% pin-to-pin drop-in replacement to quartz and MEMS based XO
Differential Oscillator for Low Cost
Low Power Consumption
Extremely low RMS phase jitter
Excellent long time reliability
Very tight frequency stability as low as ±10 ppm
LVPECL and LVDS output signals
Outstanding long term aging
Standard housings: 3.2x2.5; 5.0x3.2; 7.0x5.0 mm
Pb-free, RoHS and REACH compliant / MSL1@260°C
GENERAL DATA
PARAMETER AND CONDITIONS
SYMBOL
MIN.
TYP.
MAX.
UNIT
CONDITION
2.97
3.3
3.63
V
2.25
2.5
2.75
V
2.25
–
3.63
V
f
220
–
625
MHz
F_stab
-10
–
+10
ppm
Inclusive of initial tolerance, operating temperature,
-20
–
+20
ppm
rated power supply voltage, and load variations
-25
–
+25
ppm
LVPECL AND LVDS, COMMON ELECTRICAL CHARACTERISTICS
Supply Voltage
Output Frequency Range
Frequency Stability
VDD
Termination schemes in Figures 1 and 2 - XX ordering code
-50
–
+50
ppm
First Year Aging
F_aging1
-2
–
+2
ppm
25°C
10-year Aging
F_aging10
-5
–
+5
ppm
25°C
T_use
-40
–
+85
°C
Industrial
-20
–
+70
°C
Commercial
VIH
70%
–
–
VDD
Pin 1, OE or ST
Input Voltage Low
VIL
–
–
30%
VDD
Pin 1, OE or ST
Input Pull-up Impedance
Z_in
–
100
250
kΩ
Pin 1, OE logic high or logic low, or ST logic high
2
–
–
MΩ
Pin 1, ST logic low
Operating Temperature Range
Input Voltage High
Start-up Time
T_start
–
6
10
ms
Measured from the time VDD reaches its rated minimum
value.
Resume Time
T_resume
–
6
10
ms
In Standby mode, measured from the time ST pin crosses
50% threshold.
DC
45
–
55
%
Contact PETERMANN-TECHNIK for tighter duty cycle
Duty Cycle
CRYSTALS ∙ OSCILLATORS ∙ CERAMIC RESONATORS ∙ CERAMIC FILTERS ∙ SAW COMPONENTS
PAGE 1 OF 8 I SPEC 01 I REV.00 I NOVEMBER 2014
PETERMANN-TECHNIK GmbH
Lechwiesenstr. 13 ∙ D-86899 ∙ Landsberg am Lech
Tel: +49/8191/305395 ∙ Fax: +49/8191/305397
[email protected] ∙ www.petermann-technik.com
GENERAL DATA (continued)
PARAMETER AND CONDITIONS
SYMBOL
MIN.
TYP.
MAX.
UNIT
CONDITION
IDD
–
61
69
mA
Excluding Load Termination Current, VDD = 3.3V or 2.5V
I_OE
–
–
35
mA
OE = Low
Output Disable Leakage Current
I_leak
–
–
1
µA
OE = Low
Standby Current
I_std
–
–
100
µA
ST = Low, for all VDDs
I_driver
–
–
30
mA
Maximum average current drawn from OUT+ or OUT-
Output High Voltage
VOH
VDD-1.1
–
VDD-0.7
V
See Figure 1(a)
Output Low Voltage
VOL
VDD-1.9
–
VDD-1.5
V
See Figure 1(a)
V_Swing
1.2
1.6
2.0
V
See Figure 1(b)
Rise/Fall Time
Tr, Tf
–
300
500
ps
20% to 80%, see Figure 1(a)
OE Enable/Disable Time
T_oe
–
–
115
ns
f = 220 MHz - For other frequencies,
T_oe = 100ns + 3 period
RMS Period Jitter
T_jitt
–
1.2
1.7
ps
f = 220 MHz, VDD = 3.3V or 2.5V
–
1.2
1.7
ps
f = 312.5 MHz, VDD = 3.3V or 2.5V
–
1.2
1.7
ps
f = 622.08 MHz, VDD = 3.3V or 2.5V
T_phj
–
0.6
0.85
ps
f = 312.5 MHz, Integration bandwidth = 12 kHz to 20 MHz, all
VDDs
IDD
–
47
55
mA
Excluding Load Termination Current, VDD = 3.3V or 2.5V
OE Disable Supply Current
I_OE
–
–
35
mA
OE = Low
Differential Output Voltage
VOD
250
350
450
mV
See Figure 2
Output Disable Leakage Current
I_leak
–
–
1
µA
OE = Low
Standby Current
I_std
–
–
100
µA
ST = Low, for all VDDs
VOD Magnitude Change
VOD
–
–
50
mV
See Figure 2
LVPECL, DC AND AC CHARACTERISTICS
Current Consumption
OE Disable Supply Current
Maximum Output Current
Output Differential Voltage Swing
RMS Phase Jitter (random)
LVDS, DC AND AC CHARACTERISTICS
Current Consumption
Offset Voltage
VOS
1.125
1.2
1.375
V
See Figure 2
VOS Magnitude Change
VOS
–
–
50
mV
See Figure 2
Rise/Fall Time
Tr, Tf
–
495
600
ps
20% to 80%, see Figure 2
OE Enable/Disable Time
T_oe
–
–
115
ns
f = 220 MHz - For other frequencies,
T_oe = 100ns + 3 period
RMS Period Jitter
T_jitt
–
1.4
1.7
ps
f = 266 MHz, VDD = 3.3V or 2.5V
–
1.4
1.7
ps
f = 312.5 MHz, VDD = 3.3V or 2.5V
–
1.2
1.7
ps
f = 622.08 MHz, VDD = 3.3V or 2.5V
–
0.6
0.85
ps
f = 312.5 MHz, Integration bandwidth = 12 kHz to 20 MHz, all
VDDs
RMS Phase Jitter (random)
T_phj
EXCELLENT RELIABILITY DATA
MTBF
Shock Resistance:
Vibration Resistance:
CRYSTALS ∙ OSCILLATORS ∙ CERAMIC RESONATORS ∙ CERAMIC FILTERS ∙ SAW COMPONENTS
500 million hours
10.000 g
70 g
PAGE 2 OF 8 I SPEC 01 I REV.00 I NOVEMBER 2014
PETERMANN-TECHNIK GmbH
Lechwiesenstr. 13 ∙ D-86899 ∙ Landsberg am Lech
Tel: +49/8191/305395 ∙ Fax: +49/8191/305397
[email protected] ∙ www.petermann-technik.com
PIN DESCRIPTION
PIN
SYMBOL
TOP VIEW
FUNCTIONALITY
OE
Input
H or Open: specified frequency output
L: output is high impedance
ST
Input
H or Open: specified frequency output
L: Device goes to sleep mode. Supply current reduces to
I_std.
2
NC
NA
3
GND
Power
VDD Power Supply Ground
4
OUT+
Output
Oscillator output
5
OUT-
Output
Complementary oscillator output
6
VDD
Power
Power Supply Voltage
1
No Connect; Leave it floating or connect to GND for better
heat dissipation
OE/ST
1
6
VDD
NC
2
5
OUT-
GND
3
4
OUT+
WAVE FORM DIAGRAMS
FIGURE 1(A). LVPECL VOLTAGE LEVELS PER DIFFERENTIAL PIN (OUT+/OUT-)
OUT80%
80%
20%
VOH
20%
OUT+
Tr
Tf
VOL
GND
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PAGE 3 OF 8 I SPEC 01 I REV.00 I NOVEMBER 2014
PETERMANN-TECHNIK GmbH
Lechwiesenstr. 13 ∙ D-86899 ∙ Landsberg am Lech
Tel: +49/8191/305395 ∙ Fax: +49/8191/305397
[email protected] ∙ www.petermann-technik.com
WAVE FORM DIAGRAMS (continued)
FIGURE 1(B). LVPECL VOLTAGE LEVELS ACROSS DIFFERENTIAL PAIR
V_ Swing
0V
t
FIGURE 2. LVDS VOLTAGE LEVELS PER DIFFERENTIAL PIN (OUT+/OUT-)
OUT80%
80%
VOD
20%
20%
OUT+
VOS
Tr
Tf
GND
TERMINATION DIAGRAMS
LVPECL:
FIGURE 3. LVPECL TYPICAL TERMINATION
VDD
OUT+
Z0 = 50 Ω
D+
Receiver Device
LVPECL Driver
OUT-
Z0 = 50 Ω
D50 Ω
50 Ω
VTT = VDD - 2.0
CRYSTALS ∙ OSCILLATORS ∙ CERAMIC RESONATORS ∙ CERAMIC FILTERS ∙ SAW COMPONENTS
PAGE 4 OF 8 I SPEC 01 I REV.00 I NOVEMBER 2014
PETERMANN-TECHNIK GmbH
Lechwiesenstr. 13 ∙ D-86899 ∙ Landsberg am Lech
Tel: +49/8191/305395 ∙ Fax: +49/8191/305397
[email protected] ∙ www.petermann-technik.com
TERMINATION DIAGRAMS
LVPECL:
FIGURE 4. LVPECL AC COUPLED TERMINATION
VDD= 3.3V => R1 = 100 to 150 Ω
VDD= 2.5V => R1 = 75 Ω
VDD
OUT+
Z0 = 50 Ω
D+
100nF
Receiver Device
LVPECL Driver
100nF
OUT-
Z0 = 50 Ω
R1
R1
D50 Ω
50 Ω
VTT
FIGURE 5. LVPECL WITH THEVENIN TYPICAL TERMINATION
VDD = 3.3V => R1 = R3 = 133 Ω and
R2 = R4 = 82 Ω
VDD = 2.5V => R1 = R3 = 250 Ω and
R2 = R4 = 62.5 Ω
VDD
OUT+
VDD
R1
R3
Z0 = 50 Ω
D+
Receiver Device
LVPECL Driver
OUT-
Z0 = 50 Ω
DR2
R4
TERMINATION DIAGRAMS
LVDS:
FIGURE 6. LVDS SINGLE TERMINATION (LOAD TERMINATED)
VDD
OUT+
100 Ω
LVDS Driver
OUT-
D+
Z0 = 50 Ω
Z0 = 50 Ω
CRYSTALS ∙ OSCILLATORS ∙ CERAMIC RESONATORS ∙ CERAMIC FILTERS ∙ SAW COMPONENTS
Receiver Device
D-
PAGE 5 OF 8 I SPEC 01 I REV.00 I NOVEMBER 2014
PETERMANN-TECHNIK GmbH
Lechwiesenstr. 13 ∙ D-86899 ∙ Landsberg am Lech
Tel: +49/8191/305395 ∙ Fax: +49/8191/305397
[email protected] ∙ www.petermann-technik.com
DIMENSIONS AND PATTERNS
RECOMMENDED LAND PATTERN (UNIT:MM) [1]
PACKAGE SIZE – DIMENSIONS (UNIT:MM)
3.2X 2.5 X 0.75 MM
#2
#6
#5
#4
#1
#2
#3
1.00
1.6
#3
0.6
0.65
0.75±0.05
#1
2.25
2.20
#4
0.7
#5
0.9
3.2±0.05
2.5±0.05
#6
1.05
RECOMMENDED LAND PATTERN (UNIT:MM) [1]
PACKAGE SIZE – DIMENSIONS (UNIT:MM)
5.0X 3.2 X 0.75 MM
#2
#5
#4
#1
#2
#3
#3
1.20
2.20
#6
0.64
0.90
0.75±0.05
#1
2.54
2.54
#4
0.9
#5
1.2
5.0±0.10
3.2±0.10
#6
RECOMMENDED LAND PATTERN (UNIT:MM) [1]
PACKAGE SIZE – DIMENSIONS (UNIT:MM)
7.0X 5.0 X 0.90 MM
#2
#5
#4
#1
#2
#3
3.80
#6
#3
1.40
0.90±0.10
#1
5.08
5.08
#4
1.60
1.10
#5
2.6
7.0±0.10
5.0±0.10
#6
1.60
Note:
1. A capacitor value of 0.1 µF between VDD and GND is recommended.
CRYSTALS ∙ OSCILLATORS ∙ CERAMIC RESONATORS ∙ CERAMIC FILTERS ∙ SAW COMPONENTS
PAGE 6 OF 8 I SPEC 01 I REV.00 I NOVEMBER 2014
PETERMANN-TECHNIK GmbH
Lechwiesenstr. 13 ∙ D-86899 ∙ Landsberg am Lech
Tel: +49/8191/305395 ∙ Fax: +49/8191/305397
[email protected] ∙ www.petermann-technik.com
ORDERING INFORMATION
OSCILLATOR
FAMILY
DLPO4
SUPPLY VOLTAGE
“25“ for 2.5V
“33“ for 3.3V
TEMPERATURE
RANGE
“C” for 0 +70°C
“M” for -20 +70°C
“W” for -40 +85°C
SIGNALING TYPE
FREQUENCY
“1” = LVPECL
“2” = LVDS
220.000000 MHz to
625.000000 MHz
DLPO4 33-3225-E-10-M-625.000MHz-T-1
FREQUENCY
STABILITY
“10” for ±10 PPM
“20” for ±20 PPM
“25” for ±25 PPM
“50” for ±50 PPM
PACKAGE SIZE
“3225” for 3.2 X 2.5 mm
“5032” for 5.0 X 3.2 mm
“7050” for 7.0 X 5.0 mm
PACKING METHOD
“B“ for Bulks or Tubes
“T” for Tape & Reel
FEATURE PIN 1
“E” for OUTPUT ENABLE
“S” for STANDBY
EXAMPLE: DLPO433-3225-E-10-M-625.000MHz-T-1
PLEASE INDICATE YOUR REQUIRED PARAMETERS
SAMPLES ARE AVAILABLE WITHIN A SHORT DELIVERY PERIOD!
CRYSTALS ∙ OSCILLATORS ∙ CERAMIC RESONATORS ∙ CERAMIC FILTERS ∙ SAW COMPONENTS
PAGE 7 OF 8 I SPEC 01 I REV.00 I NOVEMBER 2014
PETERMANN-TECHNIK GmbH
Lechwiesenstr. 13 ∙ D-86899 ∙ Landsberg am Lech
Tel: +49/8191/305395 ∙ Fax: +49/8191/305397
[email protected] ∙ www.petermann-technik.com
REFLOW SOLDER PROFILE
PREMIUM QUALITY BY
PETERMANN-TECHNIK
OUR COMPANY IS CERTIFIED ACCORDING TO ISO 9001:2008 IN OCTOBER 2013 BY THE DMSZ CERTIFIKATION GMBH.
THIS IS FOR YOU TO ENSURE THAT THE PRINCIPLES OF QUALITY
MANAGEMENT ARE FULLY IMPLEMENTED IN OUR QUALITY MANAGEMENT SYSTEM AND QUALITY CONTROL METHODS ALSO DOMINATE OUR QUALITY STANDARDS.
© PETERMANN-TECHNIK GmbH 2014. The information contained herein is subject to change at any time without notice. PETERMANN-TECHNIK owns
all rights, title and interest to the intellectual property related to PETERMANN-TECHNIK's products, including any software, firmware, copyright, patent, or trademark. The sale of PETERMANN-TECHNIK products does not convey or imply any license under patent or other rights. PETERMANNTECHNIK retains the copyright and trademark rights in all documents, catalogs and plans supplied pursuant to or ancillary to the sale of products or
services by PETERMANN-TECHNIK. Unless otherwise agreed to in writing by PETERMANN-TECHNIK, any reproduction, modification, translation, compilation, or representation of this material shall be strictly prohibited.
CRYSTALS ∙ OSCILLATORS ∙ CERAMIC RESONATORS ∙ CERAMIC FILTERS ∙ SAW COMPONENTS
PAGE 8 OF 8 I SPEC 01 I REV.00 I NOVEMBER 2014

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