552BA10M000DGR [SILICON]
Oscillator;型号: | 552BA10M000DGR |
厂家: | SILICON |
描述: | Oscillator |
文件: | 总14页 (文件大小:236K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
Si552
REVISION D
DUAL FREQUENCY VOLTAGE-CONTROLLED CRYSTAL
OSCILLATOR (VCXO) 10 MHZ TO 1.4 GHZ
Features
ꢀ
Available with any-rate output
frequencies from 10–945 MHz and
selected frequencies to 1.4 GHz
ꢀ
Internal fixed crystal frequency
ensures high reliability and low
aging
ꢀ
ꢀ
Two selectable output frequencies ꢀ Available CMOS, LVPECL,
®
LVDS, and CML outputs
3.3, 2.5, and 1.8 V supply options
Industry-standard 5 x 7 mm
package and pinout
3rd generation DSPLL with superior
ꢀ
ꢀ
jitter performance
ꢀ
3x better frequency stability than
SAW-based oscillators
ꢀ
Pb-free/RoHS-compliant
Ordering Information:
Applications
See page 8.
ꢀ
ꢀ
ꢀ
SONET/SDH
xDSL
10 GbE LAN/WAN
ꢀ
ꢀ
ꢀ
Low-jitter clock generation
Optical modules
Clock and data recovery
Pin Assignments:
See page 7.
Description
The Si552 dual-frequency VCXO utilizes Silicon Laboratories’ advanced
DSPLL circuitry to provide a very low jitter clock for all output frequencies.
(Top View)
®
The Si552 is available with any-rate output frequency from 10 to 945 MHz
and selected frequencies to 1400 MHz. Unlike traditional VCXOs, where a
different crystal is required for each output frequency, the Si552 uses one
fixed crystal frequency to provide a wide range of output frequencies. This
IC-based approach allows the crystal resonator to provide exceptional
frequency stability and reliability. In addition, DSPLL clock synthesis
provides superior supply noise rejection, simplifying the task of generating
low-jitter clocks in noisy environments typically found in communication
systems. The Si552 IC-based VCXO is factory-configurable for a wide
variety of user specifications including frequency, supply voltage, output
format, tuning slope, and temperature stability. Specific configurations are
factory programmed at time of shipment, thereby eliminating the long lead
times associated with custom oscillators.
VC
VDD
1
2
3
6
5
4
FS
CLK–
CLK+
GND
Functional Block Diagram
VDD
CLK-
CLK+
Any-rate
10–1400 MHz
DSPLL®
Fixed
Frequency XO
Clock Synthesis
ADC
FS
VC
GND
Rev. 0.6 6/07
Copyright © 2007 by Silicon Laboratories
Si552
Si552
1. Electrical Specifications
Table 1. Recommended Operating Conditions
Parameter
Symbol
Test Condition
3.3 V option
2.5 V option
1.8 V option
Min
2.97
2.25
1.71
Typ
3.3
2.5
1.8
Max
3.63
2.75
1.89
Units
1
V
DD
Supply Voltage
V
Supply Current
I
Output enabled
LVPECL
CML
DD
—
—
—
—
130
117
108
98
120
108
99
mA
LVDS
CMOS
90
Tristate mode
—
0.75 x V
—
60
—
—
—
75
—
2
Frequency Select (FS)
V
IH
DD
V
V
0.5
85
IL
Operating Temperature Range
T
–40
ºC
A
Notes:
1. Selectable parameter specified by part number. See Section 3. "Ordering Information" on page 8 for further details.
2. FS pin includes a 17 kΩ resistor to VDD.
Table 2. VC Control Voltage Input
Parameter
Symbol
Test Condition
Min
Typ
Max
Units
1,2,3
Control Voltage Tuning Slope
K
10 to 90% of V
—
33
45
—
ppm/V
V
DD
90
135
180
356
4
Control Voltage Linearity
L
BSL
–5
–10
9.3
500
—
±1
±5
+5
+10
10.7
—
VC
%
Incremental
Modulation Bandwidth
BW
10.0
—
kHz
kΩ
V
V Input Impedance
Z
C
VC
Nominal Control Voltage
V
@ f
V /2
DD
—
CNOM
O
Control Voltage Tuning Range
V
0
V
V
C
DD
Notes:
1. Positive slope; selectable option by part number. See Section 3. "Ordering Information" on page 8.
2. For best jitter and phase noise performance, always choose the smallest KV that meets the application’s minimum APR
requirements. See “AN266: VCXO Tuning Slope (KV), Stability, and Absolute Pull Range (APR)” for more information.
3. KV variation is ±10% of typical values.
4. BSL determined from deviation from best straight line fit with VC ranging from 10 to 90% of VDD. Incremental slope
determined with VC ranging from 10 to 90% of VDD
.
2
Rev. 0.6
Si552
Table 3. CLK± Output Frequency Characteristics
Parameter
Symbol
Test Condition
LVDS/CML/LVPECL
CMOS
Min
10
Typ
—
Max
Units
1,2,3
f
945
160
O
Nominal Frequency
MHz
10
—
1,4
Temperature Stability
T = –40 to +85 °C
–20
–50
–100
—
—
—
+20
+50
+100
A
ppm
1,4
Absolute Pull Range
Aging
APR
tOSC
±25
—
—
—
—
—
—
±375
±3
ppm
ppm
Frequency drift over first year.
Frequency drift over 15 year life.
—
±10
10
5
Power up Time
—
ms
ms
Settling Time After FS Change
t
—
10
FRQ
Notes:
1. See Section 3. "Ordering Information" on page 8 for further details.
2. Specified at time of order by part number. Also available in frequencies from 970 to 1134 MHz and 1213 to 1417 MHz.
3. Nominal output frequency set by VCNOM = VDD/2.
4. Selectable parameter specified by part number.
5. Time from power up or tristate mode to fO (to within ±1 ppm of fO).
Table 4. CLK± Output Levels and Symmetry
Parameter
Symbol
Test Condition
mid-level
Min
VDD – 1.42
1.1
Typ
—
Max
VDD – 1.25
1.9
Units
V
1
LVPECL Output Option
V
O
VOD
VSE
swing (diff)
—
VPP
VPP
swing (single-ended)
mid-level
0.55
—
0.95
2
LVDS Output Option
V
O
1.125
0.5
1.20
0.7
1.275
0.9
V
swing (diff)
VOD
VPP
2
CML Output Option
VO
mid-level
—
0.70
0.8 x VDD
—
V
– 0.75
—
1.20
VDD
0.4
V
DD
VOD
VOH
VOL
VPP
swing (diff)
0.95
—
3
CMOS Output Option
I
= 32 mA
OH
V
IOL = 32 mA
—
tR, F
t
Rise/Fall time (20/80%)
Symmetry (duty cycle)
LVPECL/LVDS/CML
—
—
350
—
ps
ns
CMOS with C = 15 pF
—
1
L
SYM
LVPECL:
LVDS:
CMOS:
V
– 1.3 V (diff)
DD
1.25 V (diff)
/2
45
—
55
%
V
DD
Notes:
1. 50 Ω to VDD – 2.0 V.
2. Rterm = 100 Ω (differential).
3. CL = 15 pF
Rev. 0.6
3
Si552
Table 5. CLK± Output Phase Jitter
Parameter
Symbol
Test Condition
Kv = 33 ppm/V
Min
Typ
Max
Units
1,2,3
Phase Jitter (RMS)
for F > 500 MHz
φJ
ps
12 kHz to 20 MHz (OC-48)
50 kHz to 80 MHz (OC-192)
—
—
0.26
0.26
—
—
OUT
Kv = 45 ppm/V
12 kHz to 20 MHz (OC-48)
50 kHz to 80 MHz (OC-192)
—
—
0.27
0.26
—
—
Kv = 90 ppm/V
12 kHz to 20 MHz (OC-48)
50 kHz to 80 MHz (OC-192)
—
—
0.32
0.26
—
—
Kv = 135 ppm/V
12 kHz to 20 MHz (OC-48)
50 kHz to 80 MHz (OC-192)
—
—
0.40
0.27
—
—
Kv = 180 ppm/V
12 kHz to 20 MHz (OC-48)
50 kHz to 80 MHz (OC-192)
—
—
0.49
0.28
—
—
Kv = 356 ppm/V
12 kHz to 20 MHz (OC-48)
50 kHz to 80 MHz (OC-192)
—
—
0.87
0.33
—
—
Notes:
1. Differential Modes: LVPECL/LVDS/CML. Refer to AN255, AN256, and AN266 for further information.
2. For best jitter and phase noise performance, always choose the smallest KV that meets the application’s minimum APR
requirements. See “AN266: VCXO Tuning Slope (KV), Stability, and Absolute Pull Range (APR)” for more information.
3. See “AN255: Replacing 622 MHz VCSO devices with the Si550 VCXO” for comparison highlighting power supply
rejection (PSR) advantage of Si55x versus SAW-based solutions.
4
Rev. 0.6
Si552
Table 5. CLK± Output Phase Jitter (Continued)
Parameter
Symbol
Test Condition
Kv = 33 ppm/V
Min
Typ
Max
Units
1,2,3
Phase Jitter (RMS)
for F of 125 to 500 MHz
φJ
ps
12 kHz to 20 MHz (OC-48)
50 kHz to 80 MHz (OC-192)
—
—
0.37
0.33
—
—
OUT
Kv = 45 ppm/V
12 kHz to 20 MHz (OC-48)
50 kHz to 80 MHz (OC-192)
—
—
0.37
0.33
—
—
Kv = 90 ppm/V
12 kHz to 20 MHz (OC-48)
50 kHz to 80 MHz (OC-192)
—
—
0.43
0.34
—
—
Kv = 135 ppm/V
12 kHz to 20 MHz (OC-48)
50 kHz to 80 MHz (OC-192)
—
—
0.50
0.34
—
—
Kv = 180 ppm/V
12 kHz to 20 MHz (OC-48)
50 kHz to 80 MHz (OC-192)
—
—
0.59
0.35
—
—
Kv = 356 ppm/V
12 kHz to 20 MHz (OC-48)
50 kHz to 80 MHz (OC-192)
—
—
1.00
0.39
—
—
Notes:
1. Differential Modes: LVPECL/LVDS/CML. Refer to AN255, AN256, and AN266 for further information.
2. For best jitter and phase noise performance, always choose the smallest KV that meets the application’s minimum APR
requirements. See “AN266: VCXO Tuning Slope (KV), Stability, and Absolute Pull Range (APR)” for more information.
3. See “AN255: Replacing 622 MHz VCSO devices with the Si550 VCXO” for comparison highlighting power supply
rejection (PSR) advantage of Si55x versus SAW-based solutions.
Table 6. CLK± Output Period Jitter
Parameter
Period Jitter*
Symbol
Test Condition
RMS
Min
—
Typ
2
Max
—
Units
J
ps
PER
Peak-to-Peak
—
14
—
*Note: Any output mode, including CMOS, LVPECL, LVDS, CML. N = 1000 cycles. Refer to AN279 for further information.
Rev. 0.6
5
Si552
Table 7. CLK± Output Phase Noise (Typical)
Offset Frequency
74.25 MHz
90 ppm/V
LVPECL
491.52 MHz
45 ppm/V
LVPECL
622.08 MHz
135 ppm/V
LVPECL
Units
100 Hz
1 kHz
10 kHz
100 kHz
1 MHz
–87
–114
–132
–142
–148
–150
n/a
–75
–65
–90
–100
–116
–124
–135
–146
–147
–109
–121
–134
–146
–147
dBc/Hz
10 MHz
100 MHz
Table 8. Absolute Maximum Ratings1
Parameter
Maximum Operating Temperature
Supply Voltage
Symbol
Rating
Units
T
85
ºC
Volts
Volts
ºC
AMAX
V
–0.5 to +3.8
DD
Input Voltage (any input pin)
Storage Temperature
V
–0.5 to V + 0.3
I
DD
T
–55 to +125
2500
S
ESD Sensitivity (HBM, per JESD22-A114)
ESD
Volts
ºC
2
Soldering Temperature (Pb-free profile)
T
260
PEAK
2
Soldering Temperature Time @ T
(Pb-free profile)
t
20–40
seconds
PEAK
P
Notes:
1. Stresses beyond those listed in Absolute Maximum Ratings may cause permanent damage to the device. Functional
operation or specification compliance is not implied at these conditions. Exposure to maximum rating conditions for
extended periods may affect device reliability.
2. The device is compliant with JEDEC J-STD-020C. Refer to Si5xx Packaging FAQ available for download from
www.silabs.com/VCXO for further information, including soldering profiles.
Table 9. Environmental Compliance
The Si552 meets the following qualification test requirements.
Parameter
Conditions/Test Method
MIL-STD-883F, Method 2002.3 B
MIL-STD-883F, Method 2007.3 A
MIL-STD-883F, Method 203.8
MIL-STD-883F, Method 1014.7
MIL-STD-883F, Method 2016
Mechanical Shock
Mechanical Vibration
Solderability
Gross & Fine Leak
Resistance to Solvents
6
Rev. 0.6
Si552
2. Pin Descriptions
(Top View)
VC
VDD
1
2
3
6
5
4
FS
CLK–
CLK+
GND
Table 10. Si552 Pin Descriptions
Type
Pin
Name
Function
1
V
Analog Input
Control Voltage
C
Frequency Select:
2
FS*
Input
0 = first frequency selected
1 = second frequency selected
3
4
GND
Ground
Output
Output
Electrical and Case Ground
Oscillator Output
CLK+
CLK–
(N/A for CMOS)
Complementary Output
(N/C for CMOS)
5
6
V
Power
Power Supply Voltage
DD
*Note: FS includes a 17 kΩ pullup resistor to VDD. See Section 3. "Ordering Information" on page 8 for details on frequency
select and OE polarity ordering options.
Rev. 0.6
7
Si552
3. Ordering Information
The Si552 supports a variety of options including frequency, temperature stability, tuning slope, output format, and
V
.
Specific device configurations are programmed into the Si552 at time of shipment. Configurations are
DD
specified using the Part Number Configuration chart shown below. Silicon Labs provides a web browser-based part
number configuration utility to simplify this process. Refer to www.silabs.com/VCXOPartNumber to access this tool
and for further ordering instructions. The Si552 VCXO series is supplied in an industry-standard, RoHS-compliant,
lead-free, 6-pad, 5 x 7 mm package. Tape and reel packaging is an ordering option.
X
X
D
G
R
552
XXXXXX
R = Tape & Reel
Blank = Trays
552 Dual VCXO
Product Family
Operating Temp Range (°C)
–40 to +85 °C
G
Device Revision Letter
6-digit Frequency Designator Code
Two unique frequencies can be specified within the following bands of frequencies: 10 to
945 MHz, 970 to 1134 MHz, and 1213 to 1417 MHz. A six digit code will be assigned for
the specified combination of frequencies. Codes > 000100 refer to dual XOs programmed
with the lower frequency value selected when FS = 0, and the higher value when FS = 1.
Six digit codes < 000100 refer to dual XOs programmed with the higher frequency value
selected when FS = 0, and the lower value when FS = 1.
1st Option Code
Code
A
B
C
D
E
F
G
H
J
VDD
3.3
Output Format
LVPECL
LVDS
CMOS
CML
2nd Option Code
3.3
3.3
3.3
2.5
2.5
2.5
2.5
1.8
1.8
Temperature
Tuning Slope
Minimum APR
LVPECL
LVDS
Stability
± ppm (max)
Kv
ppm/V (typ)
180
(±ppm) for VDD @
Code
A
3.3 V
100
30
150
80
2.5 V
75
Note 6
125
1.8 V
25
CMOS
CML
100
100
50
B
C
90
180
90
Note 6
75
CMOS
CML
K
D
50
30
25
E
F
G
H
J
K
M
20
50
20
20
20
100
20
45
135
356
180
135
356
33
25
Note 6
75
300
145
104
Note 6
50
235
105
70
Notes:
100
375
185
130
295
12
CMOS available to 160 MHz.
220
Note 6
155
Note 6
Notes:
1. For best jitter and phase noise performance, always choose the smallest Kv that meets
the application’s minimum APR requirements. Unlike SAW-based solutions which
require higher higher Kv values to account for their higher temperature dependence,
the Si55x series provides lower Kv options to minimize noise coupling and jitter in real-
world PLL designs. See AN255 and AN266 for more information.
2. APR is the ability of a VCXO to track a signal over the product lifetime. A VCXO with an
APR of ±25 ppm is able to lock to a clock with a ±25 ppm stability over 15 years over all
operating conditions.
3. Nominal Pull range (±) = 0.5 x VDD x tuning slope.
4. Nominal Absolute Pull Range (±APR) = Pull range – stability – lifetime aging
=0.5 x VDD x tuning slope – stability – 10 ppm
5. Minimum APR values noted above include worst case values for all parameters.
6. Combination not available.
Example Part Number: 552AF000108DGR is a 5x7mm Dual VCXO in a 6 pad package. Since the six digit code (000108) is >
000100, f0 is 644.53125 MHz (lower frequency) and f1 is 693.48299 (higher frequency), with a 3.3V supply and LVPECL output.
Temperature stability is specified as ± 50 ppm and the tuning slope is 135 ppm/V. The part is specified for a -40 to +85 C° ambient
temperature range operation and is shipped in tape and reel format.
Figure 1. Part Number Convention
8
Rev. 0.6
Si552
4. Si55x Mark Specification
Figure 2 illustrates the mark specification for the Si552. Table 11 lists the line information.
6
4
5
SiLabs 123
1 2 3 4 5 6 7 8 9 0
R T T T T Y W W +
1
2
3
Figure 2. Mark Specification
Table 11. Si55x Top Mark Description
Description
Line
Position
1–10
1
2
“SiLabs”+ Part Family Number, 5xx (First 3 characters in part number)
1–10
Si550: Option1+Option2+Freq(7)+Temp
Si552, Si554, Si550 w/ 8-digit resolution: Option1+Option2+ConfigNum(6)+Temp
3
Trace Code
Position 1
Pin 1 orientation mark (dot)
Product Revision (D)
Position 2
Tiny Trace Code (4 alphanumeric characters per assembly release instructions)
Year (least significant year digit), to be assigned by assembly site (ex: 2007 = 7)
Calendar Work Week number (1–53), to be assigned by assembly site
“+” to indicate Pb-Free and RoHS-compliant
Position 3–6
Position 7
Position 8–9
Position 10
Rev. 0.6
9
Si552
5. Outline Diagram and Suggested Pad Layout
Figure 3 illustrates the package details for the Si552. Table 12 lists the values for the dimensions shown in the
illustration.
Figure 3. Si552 Outline Diagram
Table 12. Package Diagram Dimensions (mm)
Dimension
Min
1.45
1.2
Nom
1.65
Max
1.85
1.6
A
b
1.4
c
0.60 TYP
7.00 BSC
6.2
D
D1
e
6.10
6.30
2.54 BSC
5.00 BSC
4.40
E
E1
L
4.30
1.07
4.50
1.47
1.27
S
1.815 BSC
0.7 REF
—
R
aaa
bbb
ccc
ddd
—
—
—
—
0.15
0.15
0.10
0.10
—
—
—
10
Rev. 0.6
Si552
6. 6-Pin PCB Land Pattern
Figure 4 illustrates the 6-pin PCB land pattern for the Si552. Table 13 lists the values for the dimensions shown in
the illustration.
Figure 4. Si552 PCB Land Pattern
Table 13. PCB Land Pattern Dimensions (mm)
Dimension
Min
Max
D2
e
5.08 REF
2.54 BSC
4.15 REF
E2
GD
GE
VD
VE
X
0.84
2.00
—
—
8.20 REF
7.30 REF
1.70 TYP
2.15 REF
Y
ZD
ZE
—
—
6.78
6.30
Notes:
1. Dimensioning and tolerancing per the ANSI Y14.5M-1994 specification.
2. Land pattern design based on IPC-7351 guidelines.
3. All dimensions shown are at maximum material condition (MMC).
4. Controlling dimension is in millimeters (mm).
Rev. 0.6
11
Si552
DOCUMENT CHANGE LIST
Revision 0.3 to Revision 0.4
ꢀ Updated Table 1, “Recommended Operating
Conditions,” on page 2.
ꢁ Added maximum supply current specifications.
ꢁ Specified relationship between temperature at startup
and operation temperature.
Revision 0.4 to Revision 0.5
ꢀ Updated Note 3 in Table 1, “Recommended
Operating Conditions,” on page 2.
Revision 0.5 to Revision 0.6
ꢀ Updated Table 1, “Recommended Operating
Conditions,” on page 2.
ꢁ Device maintains stable operation over –40 to +85 ºC
operating temperature range.
ꢁ Supply current specifications updated for revision D.
ꢀ Updated Table 4, “CLK± Output Levels and
Symmetry,” on page 3.
ꢁ Updated LVDS differential peak-peak swing
specifications.
ꢀ Updated Table 5, “CLK± Output Phase Jitter,” on
page 4.
ꢀ Updated Table 6, “CLK± Output Period Jitter,” on
page 5.
ꢁ Revised period jitter specifications.
1
ꢀ Updated Table 8, “Absolute Maximum Ratings ,” on
page 6 to reflect the soldering temperature time at
260 ºC is 20–40 sec per JEDEC J-STD-020C.
ꢀ Updated 3. "Ordering Information" on page 8.
ꢁ Changed ordering instructions to revision D.
ꢀ Added 4. "Si55x Mark Specification" on page 9.
12
Rev. 0.6
Si552
NOTES:
Rev. 0.6
13
Si552
CONTACT INFORMATION
Silicon Laboratories Inc.
400 West Cesar Chavez
Austin, TX 78701
Tel: 1+(512) 416-8500
Fax: 1+(512) 416-9669
Toll Free: 1+(877) 444-3032
Email: VCXOinfo@silabs.com
Internet: www.silabs.com
The information in this document is believed to be accurate in all respects at the time of publication but is subject to change without notice.
Silicon Laboratories assumes no responsibility for errors and omissions, and disclaims responsibility for any consequences resulting from
the use of information included herein. Additionally, Silicon Laboratories assumes no responsibility for the functioning of undescribed features
or parameters. Silicon Laboratories reserves the right to make changes without further notice. Silicon Laboratories makes no warranty, rep-
resentation or guarantee regarding the suitability of its products for any particular purpose, nor does Silicon Laboratories assume any liability
arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation conse-
quential or incidental damages. Silicon Laboratories products are not designed, intended, or authorized for use in applications intended to
support or sustain life, or for any other application in which the failure of the Silicon Laboratories product could create a situation where per-
sonal injury or death may occur. Should Buyer purchase or use Silicon Laboratories products for any such unintended or unauthorized ap-
plication, Buyer shall indemnify and hold Silicon Laboratories harmless against all claims and damages.
Silicon Laboratories, Silicon Labs, and DSPLL are trademarks of Silicon Laboratories Inc.
Other products or brandnames mentioned herein are trademarks or registered trademarks of their respective holders.
14
Rev. 0.6
相关型号:
©2020 ICPDF网 联系我们和版权申明