ULTRA PERFORMANCE OSCILLATOR 1.0—80.0 MHz SERIES „UPO“

PETERMANN-TECHNIK GmbH
Lechwiesenstr. 13 ∙ D-86899 ∙ Landsberg am Lech
Tel: +49/8191/305395 ∙ Fax: +49/8191/305397
[email protected] ∙ www.petermann-technik.com
ULTRA PERFORMANCE OSCILLATOR 1.0—80.0 MHz
SERIES „UPO“
FEATURES
APPLICATIONS
+
+
+
+
+
+
+
+
+
+ SATA, SAS, Ethernet, PCI Express, video, WiFi
+ Computing, storage, networking, telecom, industrial control,
+ etc.
Ultra Performance Oscillator for Low Cost
Low Power Consumption / Ultra low phase Jitter
Excellent long time reliability
Very tight frequency stability as low as ±10 ppm
Outstanding long term aging of ±5ppm after 10 years
LVCMOS/LVTTL compatible output
Standard housings: 2.5x2.0; 3.2x2.5; 5.0x3.2; 7.0x5.0mm
Express samples within 1 day ex works PETERMANN-TECHNIK
Pb-free, RoHS and REACH compliant / MSL1@260°C
GENERAL DATA[1]
PARAMETER AND CONDITIONS
SYMBOL
MIN.
TYP.
MAX.
UNIT
CONDITION
f
1
–
80
MHz
F_stab
-10
+10
PPM
Inclusive of initial tolerance at 25°C,
FREQUENCY RANGE
Output Frequency Range
FREQUENCY STABILITY AND AGING
Frequency Stability
First year Aging
F_aging
10-year Aging
-20
–
+20
PPM
and variations over operating temperature, rated power
-25
–
+25
PPM
supply voltage and load
-50
–
+50
PPM
-1.5
–
+1.5
PPM
25°C
-5
–
+5
PPM
25°C
-20
–
+70
°C
Extended Commercial
OPERATING TEMPERATURE RANGE
Operating Temperature Range
T_use
-40
–
+85
°C
Industrial
Storage Temperature Range
T_stor
-55
–
+125
°C
Storage
VDD
1.71
1.8
1.89
V
Supply voltages between 2.5V and 3.3V can be supported.
2.25
2.5
2.75
V
Contact PETERMANN-TECHNIK for additional information.
2.52
2.8
3.08
V
2.97
3.3
3.63
V
–
31
33
mA
No load condition, f = 20 MHz, VDD = 2.5V, 2.8V or 3.3V
–
29
31
mA
No load condition, f = 20 MHz, VDD = 1.8V
–
–
31
mA
VDD = 2.5V, 2.8V or 3.3V, OE = GND, output is pulled down
–
–
30
mA
VDD = 1.8 V. OE = GND, output is pulled down
–
–
70
µA
VDD = 2.5V, 2.8V or 3.3V, ST = GND, output is pulled down
–
–
10
µA
VDD = 1.8 V. ST = GND, output is pulled down
SUPPLY VOLTAGE AND CURRENT CONSUMPTION
Supply Voltage
Current Consumption
OE Disable Current
Standby Current
IDD
I_OD
I_std
Note:
1. All electrical specifications in the above table are specified with 15 pF output load at default drive strength and for all VDD(s) unless otherwise stated.
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PAGE 1 OF 9 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[1] (continued)
PARAMETER AND CONDITIONS
SYMBOL
MIN.
TYP.
MAX.
UNIT
DC
45
–
55
%
CONDITION
LVCMOS OUTPUT CHARACTERISTICS
Duty Cycle
Rise/Fall Time
Tr, Tf
–
1.2
2
ns
15 pF load, 10% - 90% VDD
Output Voltage High
VOH
90%
–
–
VDD
IOH = -6 mA, IOL = 6 mA, (VDD = 3.3V, 2.8V, 2.5V)
Output Voltage Low
VOL
–
–
10%
VDD
IOL = 3 mA, (VDD = 1.8V)
Input Voltage High
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
T_start
–
7
10
ms
Measured from the time VDD reaches its rated minimum
value
T_oe
–
–
150
ns
f = 80 MHz, For other frequencies, T_oe = 100 ns + 3 cycles
T_resume
–
6
10
ms
In standby mode, measured from the time ST pin crosses
50% threshold. Refer to Figure 5.
T_jitt
–
1.5
2
ps
–
2
3
ps
f = 75 MHz, VDD = 1.8V
–
0.5
1
ps
f = 10 MHz, Integration bandwidth = 12 kHz to 20 MHz
INPUT CHARACTERISTICS
STARTUP AND RESUME TIMING
Startup Time
OE Enable/Disable Time
Resume Time
JITTER
RMS Period Jitter
RMS Phase Jitter (random)
T_phj
EXCELLENT RELIABILITY DATA
MTBF
500 million hours
Shock Resistance:
10.000 g
Vibration Resistance:
70 g
Note:
1. All electrical specifications in the above table are specified with 15 pF output load and for all VDD(s) unless otherwise stated.
PIN DESCRIPTION
PIN
1
SYMBOL
TOP VIEW
FUNCTIONALITY
Output Enable
H or Open[2]: specified frequency output
L: output is high impedance. Only output driver is disabled.
Standby
H or Open[2]: specified frequency output
L: output is low (weak pull down). Device goes to sleep mode.
Supply current reduces to I_std.
OE/ ST
2
GND
3
OUT
Output
Oscillator output
4
VDD
Power
Power supply voltage[3]
OE/ST
1
4
VDD
GND
2
3
OUT
Electrical ground[3]
Notes:
2. A pull-up resistor of <10 kΩ between OE/ ST pin and VDD is recommended in high noise environment.
3. A capacitor value of 0.1 µF between VDD and GND is recommended.
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PAGE 2 OF 9 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
TEST CIRCUIT AND WAVEFORM
FIGURE 1. TEST CIRCUIT
FIGURE 2. WAVEFORM
Vout
Vdd
3
4
Power
Supply
Test
Point
tf
90%Vdd
0.1µF
15pF
(including
probe
and fixture
capacitance)
2
1
tr
50%
10%Vdd
High Pulse
(TH)
Low Pulse
(TL)
Period
Vdd
OE/ST Function
1kΩ
TIMING DIAGRAMS
FIGURE 3. STARTUP TIMING (OE/ST MODE)
90%Vdd, 2.5/2.8/3.3V devices Vdd
95%Vdd, 1.8V devices
Pin 4 Voltage
FIGURE 4. STANDBY RESUME TIMING (ST MODE ONLY)
50%Vdd
No Glitch first cycle
Vdd
ST Voltage
T_resume
T_start
CLK Output
T_start: Time to start from power-off
FIGURE 5. OE ENABLE TIMING (OE MODE ONLY)
CLK Output
T_resume: Time to resume from ST
FIGURE 6. OE DISABLE TIMING (OE MODE ONLY)
Vdd
50%Vdd
Vdd
OE Voltage
OE Voltage
50%Vdd
T_OE
CLK Output
CLK Output
T_OE
HZ
T_OE: Time to re-enable the clock output
T_OE: Time to put the output drive in High Z mode
Notes:
4. Duty Cycle is computed as Duty Cycle = TH/Period.
5. UPO supports the configurable duty cycle feature. For custom duty cycle at any given frequency, contact PETERMANN-TECHNIK.
6. UPO supports NO RUNT pulses and No glitches during startup or resume.
7. UPO supports gated output which is accurate within rated frequency stability from the first cycle.
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PAGE 3 OF 9 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
PROGRAMMABLE DRIVE STRENGTH
The UPO includes a programmable drive strength feature named
SoftLevel to provide a simple, flexible tool to optimize the clock rise/
fall time for specific applications. Benefits from the programmable
drive strength feature are:
HIGH OUTPUT LOAD CAPABILITY
The rise/fall time of the input clock varies as a function of the actual
capacitive load the clock drives. At any given drive strength, the rise/
fall time becomes slower as the output load increases. As an examp-
+ Improves system radiated electromagnetic interference (EMI) by
le, for a 3.3V UPO device with default drive strength setting, the typical rise/fall time is 1.15ns for 15 pF output load. The typical rise/fall
slowing down the clock rise/fall time
+ Improves the downstream clock receiver’s (RX) jitter by decreasing (speeding up) the clock rise/fall time.
time slows down to 2.72ns when the output load increases to 45 pF.
One can choose to speed up the rise/fall time to 1.41ns by then increasing the drive strength setting on the UPO.
+ Ability to drive large capacitive loads while maintaining full swing
with sharp edge rates.
The UPO can support up to 60 pF or higher in maximum capacitive
loads with up to 3 additional drive strength settings. Refer to the
For more detailed information about rise/fall time control and drive
strength selection, see the PETERMANN-TECHNIK Applications Note
Rise/Tall Time Tables to determine the proper drive strength for
the desired combination of output load vs. rise/fall time.
section: http://www.petermann-technik.com
EMI REDUCTION BY SLOWING RISE/FALL TIME (SoftLevel FUNCTION)
UPO DRIVE STRENGTH SELECTION
Figure 13 shows the harmonic power reduction as the rise/fall times
Tables 1 through 4 define the rise/fall time for a given capacitive load
are increased (slowed down). The rise/fall times are expressed as a
and supply voltage.
ratio of the clock period. For the ratio of 0.05, the signal is very close
to a square wave. For the ratio of 0.45, the rise/fall times are very
close to near-triangular waveform. These results, for example, show
that the 11th clock harmonic can be reduced by 35 dB if the rise/fall
edge is increased from 5% of the period to 45% of the period.
Select the table that matches the UPO nominal supply voltage (1.8V, 2.5V, 2.8V, 3.0V, 3.3V).
2.
Select the capacitive load column that matches the application requirement (5 pF to 60 pF)
3.
Under the capacitive load column, select the desired
rise/fall times.
FIGURE 7. HARMONIC EMI REDUCTION AS A FUNCTION OF
SLOWER RISE/FALL TIME (SoftLevel FUNCTION)
4.
The left-most column represents the part number code for
the corresponding drive strength.
10
Harmonic amplitude (dB)
1.
5.
0
Add the drive strength code to the part number for
ordering purposes.
-10
-20
CALCULATING MAXIMUM FREQUENCY
-30
Based on the rise and fall time data given in Tables 1 through 4, the
-40
maximum frequency the oscillator can operate with guaranteed
-50
full swing of the output voltage over temperature as follows:
-60
Max. Frequency =
-70
-80
1
3
trise=0.05
trise=0.3
5
7
9
Harmonic number
trise=0.1
trise=0.15
trise=0.35
trise=0.2
trise=0.4
11
trise=0.25
trise=0.45
JITTER REDUCTION WITH FASTER RISE/FALL TIME
Power supply noise can be a source of jitter for the downstream chipset. One way to reduce this jitter is to increase rise/fall time (edge
rate) of the input clock. Some chipsets would require faster rise/fall
time in order to reduce their sensitivity to this type of jitter. The UPO
1
6 x (Trise)
EXAMPLE 1
Calculate fMAX for the following condition:
+ VDD = 1.8V (Table 1)
+ Capacitive Load: 30pF
+ Desired Tr/f time = 3ns (rise/fall time part number code=G)
Part number for the above example:
UPO18-2724-E-10-M-25.000MHz-T-S
provides up to 3 additional high drive strength settings for very fast
rise/fall time. Refer to the Rise/Fall Time Tables to determine the
proper drive strength.
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Drive strength code is inserted here. S = standard value.
PAGE 4 OF 9 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
RISE/FALL TIME (10% TO 90%) vs CLOAD
TABLE 1. VDD = 1.8V RISE/FALL TIMES FOR SPECIFIC CLOAD
TABLE 2. VDD = 2.5V RISE/FALL TIMES FOR SPECIFIC CLOAD
RISE/FALL TIME TYP (NS)
RISE/FALL TIME TYP (NS)
Drive Strength \ CLOAD
5 pF
15 pF
30 pF
45 pF
60 pF
Drive Strength \ CLOAD
5 pF
15 pF
30 pF
45 pF
60 pF
L
12.45
17.68
19.48
46.21
57.82
L
8.68
13.59
18.36
32.70
42.06
A
6.50
10.27
16.21
23.92
30.73
A
4.42
7.18
11.93
16.60
21.38
R
4.38
7.05
11.61
16.17
20.83
R
2.93
4.78
8.15
11.19
14.59
B
3.27
5.30
8.89
12.18
15.75
B
2.21
3.57
6.19
8.55
11.04
S
2.62
4.25
7.20
9.81
12.65
S
1.67
2.87
4.94
6.85
8.80
D
2.19
3.52
6.00
8.31
10.59
D
1.50
2.33
4.11
5.68
7.33
T
1.76
3.01
5.14
7.10
9.15
T
1.06
2.04
3.50
4.84
6.26
E
1.59
2.59
4.49
6.25
7.98
E
0.98
1.69
3.03
4.20
5.51
U
1.49
2.28
3.96
5.55
7.15
U
0.93
1.48
2.69
3.73
4.92
F
1.22
2.10
3.57
5.00
6.46
F
0.90
1.37
2.44
3.34
4.42
W
1.07
1.88
3.23
4.50
5.87
W
0.87
1.29
2.21
3.04
4.02
G
1.01
1.64
2.95
4.12
5.40
S for standard value
0.67
1.20
2.00
2.79
3.69
X
0.96
1.50
2.74
3.80
4.98
X
0.44
1.10
1.86
2.56
3.43
K
0.92
1.41
2.56
3.52
4.64
K
0.38
0.99
1.76
2.37
3.18
Y
0.88
1.34
2.39
3.25
4.32
Y
0.36
0.83
1.66
2.20
2.98
Q
0.86
1.29
2.24
3.04
4.06
Q
0.34
0.71
1.58
2.07
2.80
S for standard value
0.82
1.24
2.07
2.89
3.82
Z
0.33
0.65
1.51
1.95
2.65
M
0.77
1.20
1.94
2.72
3.61
M
0.32
0.62
1.44
1.85
2.50
N
0.66
1.15
1.84
2.58
3.41
N
0.31
0.59
1.37
1.77
2.39
P
0.51
1.09
1.76
2.45
3.24
P
0.30
0.57
1.29
1.70
2.28
TABLE 3. VDD = 2.8V RISE/FALL TIMES FOR SPECIFIC CLOAD
TABLE 4. VDD = 3.3V RISE/FALL TIMES FOR SPECIFIC CLOAD
RISE/FALL TIME TYP (NS)
RISE/FALL TIME TYP (NS)
Drive Strength \ CLOAD
5 pF
15 pF
30 pF
45 pF
60 pF
Drive Strength \ CLOAD
5 pF
15 pF
30 pF
45 pF
60 pF
L
7.93
12.69
17.94
30.10
38.89
L
7.18
11.59
17.24
27.57
35.57
A
4.06
6.66
11.04
15.31
19.80
A
3.61
6.02
10.19
13.98
18.10
R
2.68
4.40
7.53
10.29
13.37
R
2.31
3.95
6.88
9.42
12.24
B
2.00
3.25
5.66
7.84
10.11
B
1.65
2.92
5.12
7.10
9.17
S
1.59
2.57
4.54
6.27
8.07
S
1.43
2.26
4.09
5.66
7.34
D
1.19
2.14
3.76
5.21
6.72
D
1.01
1.91
3.38
4.69
6.14
T
1.00
1.79
3.20
4.43
5.77
T
0.94
1.51
2.86
3.97
5.25
E
0.94
1.51
2.78
3.84
5.06
E
0.90
1.36
2.50
3.46
4.58
U
0.90
1.38
2.48
3.40
4.50
U
0.86
1.25
2.21
3.03
4.07
F
0.87
1.29
2.21
3.03
4.05
S for standard value
0.48
1.15
1.95
2.72
3.65
W
0.62
1.19
1.99
2.76
3.68
W
0.38
1.04
1.77
2.47
3.31
S for standard value
0.41
1.08
1.84
2.52
3.36
G
0.36
0.87
1.66
2.23
3.03
X
0.37
0.96
1.72
2.33
3.15
X
0.34
0.70
1.56
2.04
2.80
K
0.35
0.78
1.63
2.15
2.92
K
0.33
0.63
1.48
1.89
2.61
Y
0.33
0.67
1.54
2.00
2.75
Y
0.32
0.60
1.40
1.79
2.43
Q
0.32
0.63
1.46
1.89
2.57
Q
0.32
0.58
1.31
1.69
2.28
Z
0.31
0.60
1.39
1.80
2.43
Z
0.30
0.56
1.22
1.62
2.17
M
0.30
0.57
1.31
1.72
2.30
M
0.30
0.55
1.12
1.54
2.07
N
0.30
0.56
1.22
1.63
2.22
N
0.30
0.54
1.02
1.47
1.97
P
0.29
0.54
1.13
1.55
2.13
P
0.29
0.52
0.95
1.41
1.90
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PAGE 5 OF 9 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) [8]
PACKAGE SIZE – DIMENSIONS (UNIT:MM)
2.7X 2.4 X 0.75 MM (100% COMPATIBLE WITH 2.5X2.0MM FOOTPRINT)
#1
1.9
1.00
#3
#3
#1
#2
#2
1.0
1.5
1.25
#4
0.5
2.7±0.05
2.4±0.05
#4
1.1
0.75±0.05
0.85
RECOMMENDED LAND PATTERN (UNIT:MM) [8]
PACKAGE SIZE – DIMENSIONS (UNIT:MM)
3.2 X 2.5 X 0.75 MM
#1
2.2
2.1
#3
#3
#1
#2
#2
1.2
0.9
1.9
#4
0.7
3.2±0.05
2.5±0.05
#4
1.4
0.75±0.05
0.9
RECOMMENDED LAND PATTERN (UNIT:MM) [8]
PACKAGE SIZE – DIMENSIONS (UNIT:MM)
5.0 X 3.2 X 0.75 MM
#3
#1
#2
#2
1.1
1.6
2.2
#4
1.15
1.5
0.75±0.05
#1
2.54
2.39
#3
0.8
5.0±0.05
3.2±0.05
#4
Note:
8. A capacitor value of 0.1 µF between VDD and GND is recommended.
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PAGE 6 OF 9 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) [8]
PACKAGE SIZE – DIMENSIONS (UNIT:MM)
7.0 X 5.0 X 0.90 MM
#3
#1
#2
3.81
#4
#2
2.0
1.1
1.4
2.2
0.90±0.10
#1
5.08
5.08
#3
2.6
7.0±0.05
5.0±0.05
#4
REFLOW SOLDER PROFILE
Note:
8. A capacitor value of 0.1 µF between VDD and GND is recommended.
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PAGE 7 OF 9 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
SUPPLY VOLTAGE
“18“
“25“
“28“
“33“
UPO
for 1.8V
for 2.5V
for 2.8V
for 3.3V
TEMPERATURE
RANGE
FREQUENCY
1.000000 to
80.000000 MHz
“M” for -20 +70°C
“W” for -40 +85°C
UPO 33-2724-E-10-M-25.000MHz-T-S
FREQUENCY
STABILITY
“10” for ±10 PPM
“20” for ±20 PPM
“25” for ±25 PPM
“50” for ±50 PPM
PACKING METHOD
“B” for BULKS or TUBES
“T” for TAPE & REEL
OUTPUT DRIVE
STRENGTH
FEATURE PIN 1
PACKAGE SIZE
“2724” for 2.7 X 2.4 mm
“3225” for 3.2 X 2.5 mm
“5032” for 5.0 X 3.2 mm
“7050” for 7.0 X 5.0 mm
“E” for OUTPUT ENABLE
“S” for STANDBY
“S” Standard (datasheet
limits) See Tables 1 to 4
for rise/fall times
“L” “D” “W” “Q”
“A” “T” “G” “Z”
“R” “E” “X” “M”
“B” “U” “K” “N”
“S” “F” “Y” “P”
EXAMPLE: UPO33-2724-E-10-M-25.000MHz-T-S
PLEASE INDICATE YOUR REQUIRED PARAMETERS
EXPRESS SAMPLES ARE DELIVERABLE ON THE SAME DAY
IF ORDERED UNTIL 02:00 PM!
CRYSTALS ∙ OSCILLATORS ∙ CERAMIC RESONATORS ∙ CERAMIC FILTERS ∙ SAW COMPONENTS
PAGE 8 OF 9 I SPEC 01 I REV.00 I NOVEMBER 2014
PETERMANN-TECHNIK GmbH
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Tel: +49/8191/305395 ∙ Fax: +49/8191/305397
[email protected] ∙ www.petermann-technik.com
PREMIUM QUALITY BY
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MANAGEMENT ARE FULLY IMPLEMENTED IN OUR QUALITY MANAGEMENT SYSTEM AND QUALITY CONTROL METHODS ALSO DOMINATE OUR QUALITY STANDARDS.
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CRYSTALS ∙ OSCILLATORS ∙ CERAMIC RESONATORS ∙ CERAMIC FILTERS ∙ SAW COMPONENTS
PAGE 9 OF 9 I SPEC 01 I REV.00 I NOVEMBER 2014