Datasheet LPO-AUT 115.2-137 MHz

PETERMANN-TECHNIK GmbH
Lechwiesenstr. 13 ∙ D-86899 ∙ Landsberg am Lech
Tel: +49/8191/305395 ∙ Fax: +49/8191/305397
[email protected] ∙ www.petermann-technik.com
LOW POWER OSCILLATOR FOR AUTOMOTIVE
AEC-Q100
SERIES „LPO-AUT“
115.2 -137.0 MHz
FEATURES
APPLICATIONS
+
+
+
+
+
+
+
+
+
+
+ Automotive, extreme temperature and other high-rel electronics
+ Infotainment systems, collision detection devices, and in-vehicle
AEC-Q100 with extended temperature range
100% pin-to-pin drop-in replacement to quartz and MEMS based XO
Highest Temperature Low Power Oscillator for Low Cost
Excellent long time reliability-outperforms quartz-based XO
Supply voltage of 1.8V or 2.25V to 3.63V
Low power consumption of 3.8 mA typical at 1.8V
Excellent total frequency stability as low as ±20ppm
Outstanding G-sensitivity of 0.1 PPB/G
LVCMOS/LVTTL compatible output
Pb-free, RoHS and REACH compliant
networking
+ Power train control
+ etc.
GENERAL DATA[1]
PARAMETER AND CONDITIONS
SYMBOL
MIN.
TYP.
MAX.
UNIT
CONDITION
f
115.2
–
137
MHz
F_stab
-20
–
+20
PPM
Inclusive of initial tolerance at 25°C, 1st year aging at 25°C,
-25
–
+25
PPM
and variations over operating temperature, rated power
-30
–
+30
PPM
supply voltage and load (15 pF ± 10%).
-50
–
+50
PPM
-40
–
+85
°C
Industrial, AEC-Q100 Grade 3
-40
–
+105
°C
Extended Industrial, AEC-Q100 Grade 2
-40
–
+125
°C
Automotive, AEC-Q100 Grade 1
-55
–
+125
°C
Extended Temperature, AEC-Q100
1.62
1.8
1.98
V
All voltages between 2.25V and 3.63V including 2.5V, 2.8V, 3.0V
2.25
-
3.63
V
and 3.3V are supported. Contact PETERMANN-TECHNIK for
1.5V support.
–
6.0
8
mA
No load condition, f = 125 MHz, VDD = 2.25V to 3.63V
–
4.9
6
mA
No load condition, f = 125 MHz, VDD = 1.62V to 1.98V
DC
45
–
55
%
All VDDs
Rise/Fall Time
Tr, Tf
–
1.5
3.0
ns
VDD = 2.25V - 3.63V, 20% - 80%
–
1.5
2.5
ns
VDD =1.8V, 20% - 80%
Output High Voltage
VOH
90%
–
–
VDD
IOH = -4 mA (VDD = 3.0V or 3.3V)
IOH = -3 mA (VDD = 2.8V and VDD= 2.5V)
IOH = -2 mA (VDD= 1.8V)
Output Low Voltage
VOL
–
–
10%
VDD
IOL = 4 mA (VDD = 3.0V or 3.3V)
IOL = 3 mA (VDD= 2.8V and VDD = 2.5V)
IOL = 2 mA (VDD = 1.8V)
FREQUENCY RANGE
Output Frequency Range
FREQUENCY STABILITY AND AGING
Frequency Stability
OPERATING TEMPERATURE RANGE
Operating Temperature Range
T_use
SUPPLY VOLTAGE AND CURRENT CONSUMPTION
Supply Voltage
Current Consumption
VDD
IDD
LVCMOS OUTPUT CHARACTERISTICS
Duty Cycle
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PETERMANN-TECHNIK GmbH
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Tel: +49/8191/305395 ∙ Fax: +49/8191/305397
[email protected] ∙ www.petermann-technik.com
GENERAL DATA[1] (continued)
SYMBOL
MIN.
TYP.
Input High Voltage
VIH
70%
Input Low Voltage
VIL
–
Input Pull-up Impedence
Z_in
PARAMETER AND CONDITIONS
MAX.
UNIT
–
–
VDD
Pin 1, OE
–
30%
VDD
Pin 1, OE
-
100
-
kΩ
Pin 1, OE logic high or logic low
T_start
–
–
5
ms
Measured from the time VDD reaches its rated minimum value
T_oe
–
–
130
ns
f = 115.2 MHz. For other frequencies, T_oe = 100 ns + 3* cycles
T_jitt
–
1.6
2.5
ps
f = 125MHz, 2.25V - 3.63V
–
1.8
3
ps
f = 125MHz, VDD = 1.8V
–
12
20
ps
f = 125 MHz, Vdd = 2.5V, 2.8V, 3.0V or 3.3V
–
14
30
ps
f = 125 MHz, Vdd = 1.8V
–
0.7
-
ps
f = 125 MHz, Integration bandwidth = 900 kHz to 7.5 MHz
–
1.5
-
ps
f = 125 MHz, Integration bandwidth = 12 kHz to 20 MHz
CONDITION
INPUT CHARACTERISTICS
STARTUP AND RESUME TIMING
Startup Time
Enable/Disable Time
JITTER
RMS Period Jitter
Peak-to-peak Period Jitter
T_pk
RMS Phase Jitter (random)
T_phj
ENVIRONMENTAL COMPLIANCE
Moisture sensitivity level
MSL1@ 260°C
G-Sensitivity
0.1PPB/G
MAXIMUM OPERATING JUNCTION TEMPERATURE [2]
Max Operating Temperature (ambient)
Maximum Operating Junction Temperature
85°C
95°C
105°C
115°C
125°C
135°C
PIN DESCRIPTION
PIN
SYMBOL
TOP VIEW
FUNCTIONALITY
Output Enable
H(2) : specified frequency output
L: output is high impedance. Only output driver is disabled.
1
OE/NC
2
GND
Power
Electrical ground[3]
3
OUT
Output
Oscillator output
4
VDD
Power
Power supply voltage[3]
No connect
OE/NC
1
4
VDD
GND 2
3
OUT
Any voltage between 0 and VDD or Open[2]: Specified frequency output. Pin 1 has no function.
Note: 1. All Min and Max limits are specified over temperature and rated operating voltage with 15 pF output load unless otherwise stated. Typical values are at 25°C and nominal supply voltage.
2.Datasheet specifications are not guaranteed if junction temperature exceeds the maximum operating junction temperature.
3.In OE mode, a pull-up resistor of 10kΩ or less is recommended if pin 1 is not externally driven. If pin 1 needs to be left floating, use the NC option.
4. A capacitor value of 0.1 µF or higher between VDD and GND is required.
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Tel: +49/8191/305395 ∙ Fax: +49/8191/305397
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TEST CIRCUIT AND WAVEFORM [4]
FIGURE 1. TEST CIRCUIT
FIGURE 2. WAVEFORM
Vout
VDD
3
4
Power
Supply
Test
Point
tf
80%VDD
0.1µF
15pF
(including
probe
and fixture
capacitance)
2
1
tr
50%
20%VDD
High Pulse
(TH)
Low Pulse
(TL)
Period
VDD
OE/NC Function
1kΩ
Note: 5. Duty Cycle is computed as Duty Cycle = TH/Period
TIMING DIAGRAMS
FIGURE 3. STARTUP TIMING (OE MODE)
90%VDD
FIGURE 4. OE ENABLE TIMING (OE MODE ONLY)
VDD
Pin 4 Voltage
VDD
50%VDD
T_oe
OE Voltage
T_start
No Glitch during start up(5)
CLK Output
CLK Output
HZ
HZ
T_start: Time to start from power-off
T_oe: Time to re-enable the clock output
FIGURE 5. OE DISABLE TIMING (OE MODE ONLY)
VDD
OE Voltage
50%VDD
T_oe
CLK Output
HZ
T_oe: Time to put the output drive in High Z mode
Note: 6. LPO-AUT has “no runt” pulses and “no glitch” output during startup or resume.
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Tel: +49/8191/305395 ∙ Fax: +49/8191/305397
[email protected] ∙ www.petermann-technik.com
PROGRAMMABLE DRIVE STRENGTH
The LPO-AUT includes a programmable drive strength named SoftLevel feature 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 LPO-AUT device with default drive strength setting, the
typical rise/fall time is 0.46 ns for 5 pF output load. The typical rise/
slowing down the clock rise/fall time
+ Improves the downstream clock receiver’s (RX) jitter by decreasing (speeding up) the clock rise/fall time.
fall time slows down to 1 ns when the output load increases to 15 pF.
One can choose to speed up the rise/fall time to 0.72 ns by then increasing the drive strength setting on the LPO-AUT.
+ Ability to drive large capacitive loads while maintaining full swing
with sharp edge rates.
The LPO-AUT can support up to 30 pF in maximum capacitive loads
with up to 3 additional drive strength settings. Refer to the Rise/Tall
For more detailed information about rise/fall time control and drive
strength selection, please contacts the application engineers of Pe-
Time Tables (Table 1 to 5) to determine the proper drive strength for
the desired combination of output load vs. rise/fall time.
termann-Technik.
EMI REDUCTION BY SLOWING RISE/FALL TIME (SoftLevel FUNCTION)
LPO-AUT DRIVE STRENGTH SELECTION
Figure 6 shows the harmonic power reduction as the rise/fall times
Tables 1 through 5 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 LPO-AUT 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 30 pF)
3.
Under the capacitive load column, select the desired
rise/fall times.
FIGURE 6. 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 5, 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=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
1
5 x Trf_20/80
where Trf_20/80 is the typical value for 20%-80% rise/fall time.
EXAMPLE 1
Calculate fMAX for the following condition:
+ VDD = 3.3V (Table 5)
+ Capacitive Load: 30pF
+ Desired Tr/f time = 1.46 ns (rise/fall time part number code=U)
rate) of the input clock. Some chipsets would require faster rise/fall
Part number for the above example:
time in order to reduce their sensitivity to this type of jitter. Refer to
LPO-AUT33-2520-E-25-WT-125.000MHz-T-S
the Rise/Fall Time Tables to determine the proper drive strength.
Drive strength code is inserted here. Standard setting is “S”
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RISE/FALL TIME (20% TO 80%) 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)
Drive Strength \ CLOAD
RISE/FALL TIME TYP (NS)
5 pF
15 pF
T
0.93
n/a(6)
E
0.78
n/a
U
0.70
1.48
S for standard
0.65
1.30
Drive Strength \ CLOAD
TABLE 3. VDD = 2.8V RISE/FALL TIMES FOR SPECIFIC CLOAD
5 pF
15 pF
R
1.45
n/a
B
1.09
n/a
T
0.62
1.28
E
0.54
1.00
S for standard
0.43
0.96
F
0.34
0.88
TABLE 4. VDD = 3.0V 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
Drive Strength \ CLOAD
5 pF
15 pF
30 pF
1.22
n/a
n/a
R
1.29
n/a
n/a
R
B
0.97
n/a
n/a
B
0.89
n/a
n/a
T
0.55
1.12
n/a
S for standard
0.51
1.00
n/a
0.38
0.92
n/a
E
0.44
1.00
n/a
E
S for standard
0.34
0.88
n/a
U
0.30
0.83
n/a
F
0.29
0.81
1.48
F
0.27
0.76
1.39
TABLE 5. VDD = 3.3V RISE/FALL TIMES FOR SPECIFIC CLOAD
RISE/FALL TIME TYP (NS)
Drive Strength \ CLOAD
5 pF
15 pF
30 pF
R
1.16
n/a
n/a
B
0.81
n/a
n/a
S for standard
0.46
1.00
n/a
E
0.33
0.87
n/a
U
0.28
0.79
1.46
F
0.25
0.72
1.31
Note: 7. “n/a” in Table 1 to Table 5 indicates that the resulting rise/fall time from the respective combination of the drive strength and output load does not provide rail-torail swing and is not available.
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[email protected] ∙ www.petermann-technik.com
PIN 1 CONFIGURATION OPTIONS (OE or NC)
Pin 1 of the LPO-AUT can be factory-programmed to support two
modes: Output enable (OE) or No Connect (NC).
FIGURE 7. STARTUP WAVEFORM vs. VDD
OUTPUT ENABLE (OE) MODE
In the OE mode, applying logic Low to the OE pin only disables the
output driver and puts it in Hi-Z mode. The core of the device
continues to operate normally. Power consumption is reduced due
to the inactivity of the output. When the OE pin is pulled High, the
output is typically enabled in <1µs.
NO CONNECT (NC) MODE
In the NC mode, the device always operates in its normal mode
and output the specified frequency regardless of the logic level on
pin 1. Table 6 below summarizes the key relevant parameters in the
operation of the device in OE or NC mode.
FIGURE 8. STARTUP WAVEFORM vs. VDD (ZOOMED-IN VIEW OF
FIGURE 7)
TABLE 6. OE vs. NC
OE
NC
Active current 20 MHz (max, 1.8V)
6 mA
6 mA
OE disable current (max. 1.8V)
4 mA
N/A
OE enable time at 110 MHz (max)
130 ns
N/A
Output driver in OE disable
High Z
N/A
OUTPUT ON STARTUP AND RESUME
The LPO-AUT comes with gated output. Its clock output is accurate to the rated frequency stability within the first pulse from initial
device startup or when the output driver is enabled.
In addition, the LPO-AUT supports “no runt” pulses and “no
glitch” output during startup or when the device output
driver is
enabled as shown in the waveform captures in Figure 7 and Figure
8.
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DIMENSIONS AND PATTERNS
RECOMMENDED LAND PATTERN (UNIT:MM) [6]
PACKAGE SIZE – DIMENSIONS (UNIT:MM)
2.0 X 1.6 X 0.75 MM
#1
1.5
1.23
#3
#3
#1
#2
#2
0.8
1.2
0.93
#4
0.48
2.0±0.05
1.6±0.05
#4
0.9
0.75±0.05
0.68
RECOMMENDED LAND PATTERN (UNIT:MM)
PACKAGE SIZE – DIMENSIONS (UNIT:MM)
2.5 X 2.0 X 0.75 MM
#1
1.9
1.75
#3
#3
#1
#2
#2
1.0
1.1
1.5
#4
0.5
2.5±0.05
2.0±0.05
#4
1.1
0.75±0.05
0.75
RECOMMENDED LAND PATTERN (UNIT:MM)
PACKAGE SIZE – DIMENSIONS (UNIT:MM)
3.2 X 2.5 X 0.75 MM
#3
#1
#2
#2
1.2
0.9
1.9
#4
0.9
1.4
0.75±0.05
#1
2.2
2.1
#3
0.7
3.2±0.05
2.5±0.05
#4
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Tel: +49/8191/305395 ∙ Fax: +49/8191/305397
[email protected] ∙ www.petermann-technik.com
DIMENSIONS AND PATTERNS
RECOMMENDED LAND PATTERN (UNIT:MM) [7]
PACKAGE SIZE – DIMENSIONS (UNIT:MM)
5.0 X 3.2 X 0.75 MM
#1
2.54
2.39
#3
#3
#1
#2
#2
1.6
0.8
2.2
#4
1.1
5.0±0.05
3.2±0.05
#4
1.5
0.75±0.05
1.15
RECOMMENDED LAND PATTERN (UNIT:MM)
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
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ORDERING INFORMATION
OSCILLATOR
FAMILY
SUPPLY VOLTAGE
“18“ for 1.8V ±10%
“25“ for 2.5V ±10%
“28“ for 2.8V ±10%
“3“ for 3.0V ±10%
“33“ for 3.3V ±10%
“XX“ for 2.25V –10%
to 3.63V+10%
LPO-AUT
TEMPERATURE
RANGE
“W” for -40 +85°C
“Y” for –40 +105°C
“Z” for –40 +125°C
“WT” for –55 +125°C
FREQUENCY
115.200000 to
137.000000 MHz
LPO-AUT 33-2520-E-25-WT-125.000MHz-T-S
FREQUENCY
STABILITY
“20” for ±20 PPM
“25” for ±25 PPM
“30” for ±30 PPM
“50” for ±50 PPM
FEATURE PIN 1
PACKAGE SIZE
“2016” for 2.0 X 1.6 mm
“2520” for 2.5 X 2.0 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
“N” for NO CONNECT
PACKING METHOD
“B” Bulks or Tubes
“T” Tape & Reel
OUTPUT DRIVE
STRENGTH
“S” Standard (datasheet
limits) See Tables 1 to 5
for rise/fall times
“L”
“T”
“A”
“E”
“R”
“U”
“B”
“F”
EXAMPLE:LPO-AUT33-2520-E-25-WT-125.000MH-T-S
PLEASE INDICATE YOUR REQUIRED PARAMETERS
FOR THE TEMPERATURES: –40 +105°C / –40 +125°C / –55 +125°C PLEASE
SEE HTLPO-AUT & WTLPO-AUT PRODUCT SPECIFICATIONS
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