VITESSE
SEMICONDUCTOR CORPORATION
Data Sheet
VSC8121
Features
• Monolithic Phase Locked Loop • On-Chip LC Oscillator • On-Chip Loop Filter • TTL/CMOS Reference Clock • Selectable Reference
2.488GHz SONET/SDH Clock Generator
• Jitter Meets SONET OC-48 and SDH STM-16 Requirements • High-Speed CML Clock Output • Single 3.3V Supply • Compact 10mm x 10mm 44 Pin PQFP Package
General Description
The VSC8121 is a monolithic Phase Locked Loop (PLL) based clock generator designed for telecommunications systems operating at 2.5Gb/s. The VSC8121 incorporates a reactance-based (LC) Voltage Controlled Oscillator (VCO) with low phase noise. The PLL’s loop filter is on-chip. The device has a differential 2.488GHz CML clock output (CO/CON) signal, a single-ended TTL lowspeed clock (LSCLK) output equivalent in frequency to that of the reference clock, and a TTL reference clock input selectable for 51.84MHz, 77.76MHz or 155.52MHz. TTL inputs REFSEL[0:1] are used to make this selection. A clean REFCLK signal is required since jitter below the PLL loop bandwidth, which is present on the REFCLK input, will appear on the output. Jitter on REFCLK at frequencies above the loop bandwidth will be attenuated by the PLL. The state of REFSEL[0:1] will select which frequency is expected on the REFCLK input.
VSC8121 Functional Block Diagram
REFCLK
Ph.Freq. Detector
Loop Filter
VCO
CO CON
CLOCK OUT
LSCLK
Divider
REFSEL[0:1]
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VITESSE
SEMICONDUCTOR CORPORATION
2.488GHz SONET/SDH Clock Generator
Data Sheet
VSC8121
Applications Information
High-Speed Clock Output The differential clock output waveforms produced by the VSC8121 are sinusoidal in nature, by design. This typically results in less noise generation than square pulses in most customer applications. Figure 1 shows a typical, single-ended clock output waveform produced by the device. Figure 1: Typical Clock Output (CO) Waveform
75mV/div
100ps/div
CO and CON are high-speed CML outputs. As shown in Figure 2, the output driver consists of a differential pair designed to drive a 50Ω transmission line environment. Note that the output driver is back terminated to 50Ω on-chip to prevent reflections. Careful layout of these signals is required for optimal performance. Figure 3 demonstrates various termination methods that may be employed, depending on the particular application. Either DC-coupling (termination #1 in Figure 3) or one of two AC coupling methods (terminations #2 and #3) may be used. As indicated, Vitesse recommends termination #2 for AC-coupling.
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VITESSE
SEMICONDUCTOR CORPORATION
Data Sheet
VSC8121
Figure 2: High-Speed Clock Output Diagram
VCC
2.488GHz SONET/SDH Clock Generator
50Ω
50Ω
CO CON
Pre-Driver
VEE
Figure 3: Example High-Speed CML Clock Output Terminations 1) CO/CON
(Recommended for DC-Coupling)
VCC
50 Ω
0.01 µf
2) CO/CON
50 Ω
(Recommended for AC-Coupling)
VTERM
3) CO/CON (Alternative for AC-Coupling)
50 Ω 0.01 µf
VTERM
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VITESSE
SEMICONDUCTOR CORPORATION
2.488GHz SONET/SDH Clock Generator
Data Sheet
VSC8121
Reference Clock Input The input stage at the REFCLK input pin consists of ESD protection, followed by a current limiting circuit which precedes a driver responsible for providing the signal to the phase frequency detector. As pictured below in Figure 4, the driver has a high impedance, FET gate input. The additional resistance contributed by the current limiting circuit is relatively negligible. Figure 4: Reference Clock Input Diagram
VCC
REFCLK
Current Limiting
VTT VEE
Care should be taken in selection of the reference clock. Time jitter on the reference clock which is within the PLL’s loop bandwidth will appear on the 2.5GHz output. Telecom quality crystal oscillators from vendors such as Connor-Winfield or Vectron are suitable.
Table 1: Reference Clock Selection REFSEL[1]
0 1 Don’t Care
REFSEL[0]
0 0 1
Selected Reference Frequency
51.84MHz 77.76MHz 155.52MHz
Typical Loop Bandwidth
2500KHz 3000KHz 5500KHz
Die Usage Vitesse optionally provides this device in unpackaged, die-only format for multi-chip module and related applications. For further informtion, please contact Vitesse.
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VITESSE
SEMICONDUCTOR CORPORATION
Data Sheet
VSC8121
AC Characteristics
Table 2: AC Characteristics Parameter
TCLK RCd RCf ∆fRC tjitter
2.488GHz SONET/SDH Clock Generator
Description
High-speed output clock period Reference clock duty cycle Reference clock frequency (selectable) Reference clock frequency tolerance Jitter generation
Min
— 45 — -100 —
Typ
401.9 — 51.84, 77.76, or 155.52 — 1.75
Max
— 55 — +100 3.6
Units
ps % MHz ppm(1) ps RMS
Conditions
12kHz to 20MHz. See Figure 5.
NOTE: (1) ppm refers to “parts per million.” 100ppm (100/1000000) is equivalent to 0.01%. Therefore, the equivalent reference clock frequency range in MHz for +/-100ppm tolerance is as follows:
RCf
51.84MHz 77.76MHz 155.52MHz
X 100ppm =
5.184KHz 7.776KHz 15.552KHz
Acceptable Range
51.83MHz to 51.85MHz 77.75MHz to 77.78MHz 155.51MHz to 155.54MHz
Note that +/-100ppm tolerance for reference clock frequency more than accommodates the SONET/SDH requirement that reference clock-supplying crystals function at +/-20ppm.)
Figure 5: RMS/Peak-to-Peak Jitter (12kHz - 20MHz), REF_CLK freq = 77.76MHz
RMS Jitter 3.0 2.5 2.0
ps ps
Pk-Pk Jitter 25 20 15 10 5 0
1.5 1.0 0.5 0.0 0 20 40 60 80 100
0
20
40
60
80
100
Case Temperature (deg C)
Case Temperature (deg C)
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VITESSE
SEMICONDUCTOR CORPORATION
2.488GHz SONET/SDH Clock Generator
Data Sheet
VSC8121
DC Characteristics
Table 3: Low Speed I/O Parameter
VOH VOL VIH VIL IIH IIL
Description
Output HIGH voltage (TTL) Output LOW voltage (TTL) Input HIGH voltage (TTL) Input LOW voltage (TTL) Input HIGH current (TTL) Input LOW current (TTL)
Min
2.4 — 2.0 0 — —
Typ
— — — — 50 —
Max
— 0.5 3.47 0.8 500 -500
Units
V V V V µA µA
Conditions
IOH = -1.0 mA IOL = +1.0 mA — — VIN = 2.4V VIN = 0.5V
Table 4: High-Speed Differential Outputs Parameter
VOD
Description
Output differential voltage
Min
450 VCC 0.40 VCC 0.80 VCC 0.80
Typ
— — — —
Max
800 VCC 0.25 VCC 0.50 VCC 0.50
Units
mV mV mV mV
Conditions
Termination #1 (See Figure 3) Termination #2 (See Figure 3) Termination #3 (See Figure 3)
VOCM
Output common-mode voltage
Note: Output jitter characteristics apply for differential outputs.
Table 5: Power Supply Currents Parameter
ICC PD
Description
Power supply current from VCC Power dissipation
Min
Typ
Max
200 0.7
Units
mA W
Conditions
Outputs Open Outputs Open
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VITESSE
SEMICONDUCTOR CORPORATION
Data Sheet
VSC8121
Absolute Maximum Ratings(1)
2.488GHz SONET/SDH Clock Generator
Power Supply Voltage (VCC) Potential to GND ............................................................................-0.5 V to +4.0 V TTL Input Voltage Applied ..........................................................................................................-0.5 V to + 5.5V Output Current (IOUT) ................................................................................................................................... 50 mA Case Temperature Under Bias (TC) ................................................................................................ -55o to + 125oC Storage Temperature (TSTG) ........................................................................................................... -65o to + 150oC
NOTE: (1) Caution: Stresses listed under “Absolute Maximum Ratings” may be applied to devices one at a time without causing permanent damage. Functionality at or exceeding the values listed is not implied. Exposure to these values for extended periods may affect device reliability.
Recommended Operating Conditions
Power Supply Voltage (VCC) .................................................................................................................+3.3V ±5% Commercial Operating Temperature Range(1) (T) ............................................................................... 0oC to 85oC
NOTE: (1) Lower limit of specification is ambient temperature and upper limit is case temperature.
ESD Ratings
Proper ESD procedures should be used when handling this product. The VSC8121 is rated to the following ESD voltages based on the human body model: 1. All pins are rated at or above 1500V.
Note: If used single-ended, the unused output should be terminated.
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VITESSE
SEMICONDUCTOR CORPORATION
2.488GHz SONET/SDH Clock Generator
Data Sheet
VSC8121
Figure 6: Pin Diagram
Package Pin Descriptions
VCCANA
VEEANA
NC
44 43
NC
42
NC
NC
41
NC
40
NC
39
NC
NC
NC
38 37
36 35 34 33 32 31 30 29 28 27 26 25 24 23
NC NC NC NC NC NC NC VCCT NC NC NC
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22
NC NC NC VCCP CON CO VCC NC NC NC NC
NC
NC
NC
NC
NC
VEET
REFCLK
REFSEL0
REFSEL1
LSCLK
VEE
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VITESSE
SEMICONDUCTOR CORPORATION
Data Sheet
VSC8121
Table 6: Package Pin Identification Signal Name
NC NC NC NC NC NC NC VCCT NC NC NC NC NC VEET REFCLK REFSEL[0] REFSEL[1] LSCLK VEE NC NC NC NC NC NC VCC CO CON VCCP NC NC NC NC NC NC VEEANA VCCANA NC
2.488GHz SONET/SDH Clock Generator
Pin #
1 2 3 4 5 6 7 8 9 10 11 12 13 14 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39
I/O
Positive Supply Negative Supply TTL Input TTL Input TTL Input TTL Output Negative Supply Positive Supply Output Output Positive Supply Negative Supply Positive Supply -
Level
3.3V GND TTL TTL TTL TTL GND 3.3V 2.7 - 3.3V 2.7 - 3.3V 3.3V GND 3.3V -
Description
Do not connect, leave open(1) Do not connect, leave open(1) Do not connect, leave open(1) Do not connect, leave open(1) Do not connect, leave open(1) Do not connect, leave open(1) Do not connect, leave open(1) For TTL I/O Do not connect, leave open(1) Do not connect, leave open(1) Do not connect, leave open(1) Do not connect, leave open(1) Do not connect, leave open(1) For TTL I/O Reference Clock Selects Reference Frequency Selects Reference Frequency Low Speed PLL Output Do not connect, leave open(1) Do not connect, leave open(1) Do not connect, leave open(1) Do not connect, leave open(1) Do not connect, leave open(1) Do not connect, leave open(1) High-Speed Clock Out High-Speed Clock Out Complement Supply for High-Speed Outputs (2) Do not connect, leave open(1) Do not connect, leave open(1) Do not connect, leave open(1) Do not connect, leave open(1) Do not connect, leave open(1) Do not connect, leave open(1) For Analog Section For Analog Section(2) Do not connect, leave open(1)
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VITESSE
SEMICONDUCTOR CORPORATION
2.488GHz SONET/SDH Clock Generator
Signal Name
NC NC NC NC NC
Data Sheet
VSC8121
Pin #
40 41 42 43 44
I/O
-
Level
-
Description
Do not connect, leave open(1) Do not connect, leave open(1) Do not connect, leave open(1) Do not connect, leave open(1) Do not connect, leave open(1)
NOTE: (1) Leave unconnected. Terminating these pins to GND, VEE or otherwise may have an adverse effect on the performance of the device. (2) VCC pins 30 and 38 are internally connected to each other.
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VITESSE
SEMICONDUCTOR CORPORATION
Data Sheet
VSC8121
Package Information
44-Pin PQFP Package Drawing
2.488GHz SONET/SDH Clock Generator
F G
44 34
Item
A
33
mm
2.45 2.00 0.35 13.20 10.00 13.20 10.00 0.88 0.80 0.80
3.56
Tol.
MAX +.10 / -.05 ±.05 ±.25 ±.10 ±.25 ±.10 +.15 / -.10 +.15 / -.10 BASIC
±.50 DIA.
1
D E F
L
G
IH
H I J
11
23
J1 K
L
12
10 o TYP
22
D
10 o TYP
K
NOTES: Drawing not to scale. Heat spreader up. All units in mm unless otherwise noted. Package #: 101-299-1 Issue #: 1
0.30 RAD.TYP.
A
0.20 RAD. TYP . 0 o- 8 o 0.25 MAX.
0.17 MAX. 0.25
J1 J
0.102 MAX. LEAD COPLANARITY
E
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VITESSE
SEMICONDUCTOR CORPORATION
2.488GHz SONET/SDH Clock Generator
Data Sheet
VSC8121
Thermal Considerations
This package has been enhanced with a copper heat slug to provide a low thermal resistance path from the die to the exposed surface of the heat spreader. The thermal resistance is shown in the Table 7.
Table 7: Thermal Resistance Symbol
θJC θCA
Description
Thermal resistance from junction-to-case. Thermal resistance from case-to-ambient with no airflow, including conduction through the leads.
o
C/W
2.0
35.0
Thermal Resistance With Airflow Shown in Table 8 is the thermal resistance with airflow. This thermal resistance value reflects all the thermal paths including through the leads in an environment where the leads are exposed. The temperature difference between the ambient airflow temperature and the case temperature should be the worst-case power of the device multiplied by the thermal resistance. Table 8: Thermal Resistance With Airflow Airflow
100 lfpm 200 lfpm 400 lfpm 600 lfpm
θCA (oC/W)
28 25 21 18
Maximum Ambient Temperature Without Heatsink The worst case ambient temperature without use of a heatsink is given by the equation:
TA(MAX) = TC(MAX) - P(MAX)θCA where: θCA TA(MAX) TC(MAX) P(MAX) = = = = Theta case to ambient at appropriate airflow Ambient Air temperature Case temperature (85oC for VSC8121) Power (0.7W for VSC8121)
Table 9: Maximum Ambient Air Temperature Without Heatsink Airflow
None 100 lfpm 200 lfpm 400 lfpm 600 lfpm
TA(MAX) oC
60 65 68 70 72
Note that ambient air temperature varies throughout the system based on the positioning and magnitude of heat sources and the direction of air flow.
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SEMICONDUCTOR CORPORATION
Data Sheet
VSC8121
VSC8121 Evaluation Board
2.488GHz SONET/SDH Clock Generator
An evaluation board is available from Vitesse which can be used to characterize the performance of the VSC8121 2.488GHz SONET/SDH Clock Generator. The following sections provide a layout for the board, general notes regarding usage and descriptions of input/output ports, as well as an example equipment setup. To learn more about how to order this board for your evaluation needs, please contact your local Vitesse Sales Office.
Figure 7: Top-view Layout of the VSC8121 Evaluation Board
VITESSE
U2 J5 R3
12 11 1 44
J1 Board dimensions: 3” x 2.75” x 0.06” C2 Component Values: R1 = 10kΩ R2 = 10kΩ R3 = 11Ω R4 = 0Ω R5 = 0Ω R6 = leave open R7 = leave open C1 = 10µF C2 = 10µF C4 = 0.1µF C8 = 0.1µF C9 = 0.01µF C10 = 0.01µF L1 = TDK-CB50-1206 ferrite J9 J8
J3
R1 S1 S2
J4 J6 L1
22 23 33 34
R2
C8
J7 JP1 C4 C1 U1 R5 R7 C10 R4 R6 C9
VS8121EVA REV. A
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VITESSE
SEMICONDUCTOR CORPORATION
2.488GHz SONET/SDH Clock Generator
Data Sheet
VSC8121
Figure 8: Location of Additional Components on Back Side of the VSC8121 Evaluation Board
C5 C7
C6
C3
Component Values: C3 = 0.1µF C5 = 0.1µF C6 = 0.1µF C7 = 0.1µF
Equipment for Typical Set-up VSC8121 Evaluation Board Signal Generator or 155.52MHz Crystal Oscillator Digital Oscilloscope DC Power Supply Power Supply Settings VCC Set to 3.3V (Current draw will be approximately 180mA) Reference Clock To provide a reference clock to the VSC8121, either a Signal Generator or telecom-quality Crystal Oscillator can be used. The REFCLK level should be near 900mV(RMS) and, as listed in Table 1 of this specification, operate at either 51.84MHz, 77.76MHz, or 155.52MHz. The evaluation board is preconfigured to run with a 155.52MHz reference clock, but can be easily modified to accept one of the other two frequency choices.
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VITESSE
SEMICONDUCTOR CORPORATION
Data Sheet
VSC8121
REFSEL[0] (S1)
0 0 1
2.488GHz SONET/SDH Clock Generator
Table 10: REFSEL [0,1] Switch Settings (S1, S2) For Selected Reference Frequency REFSEL[1] (S2)
0 1 Don’t Care
Selected Reference Frequency
51.84MHz 77.76MHz 155.52MHz
As reiterated above, the selected reference frequency is determined by the TTL inputs REFSEL[0] and REFSEL[1]. The board can be made to operate with a REFCLK of either 51.84MHz or 77.76MHz by closing or opening the appropriate connections at locations S1 and S2. As indicated in Table 10, S1 controls REFSEL[0], and S2 controls REFSEL[1]. Closing one of these connections shorts the corresponding REFSEL pin to VEE. You may either place a permanent short across the desired pin, or place a switch in both locations to leave the option of toggling to different reference clock settings. (As an example, to configure the device to expect a 77.76MHz frequency, you would place a short or close the switch across S1 and leave S2 open.)
Recommended Evaluation Board Connections Chabin to Banana Jack Connections • JP1 (2nd position) to positive terminal of VS1
• JP1 (4th position) to negative terminal of VS1
(Optionally, microclip or other connectors can be used to route power as deemed practical by the customer)
SMA Cable Connections • J5 (REFCLK) to the RF Out port of the Signal Generator, -or- you may leave J5 unconnected and place a crystal oscillator in location U2 (see the Using A Crystal Oscillator section below) • J7 (LSCLK) to the external TRIGGER input of the Digital Oscilloscope • J8 (CON) to Ch 1 of the Digital Oscilloscope • J9 (CO) to Ch 2 of the Digital Oscilloscope
NOTE: Ports not listed are not required for normal operation of the device, and should be left unconnected.
Using a Crystal Oscillator The board provides an option for a crystal oscillator if it is not desired to drive the reference clock signal with a signal generator or other device. A telecom-quality 155.52MHz crystal is recommended, since the goal should be to introduce the least amount of jitter into the input as possible. Certain frequencies of jitter (those below the loop bandwidth of the PLL) introduced at the REFCLK input will appear directly at the output of the device.
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VITESSE
SEMICONDUCTOR CORPORATION
2.488GHz SONET/SDH Clock Generator
Data Sheet
VSC8121
Example Set-Up The figure below shows one possible set-up using the VSC8121 Evaluation Board and recommended connections listed above. In this configuration, the device receives its reference clock input from an external signal generator supplying a 900mV(RMS) signal. As an alternative, a crystal oscillator may be used instead to provide this reference. The CO and CON (High-Speed Clock True and Complement) and LSCLK signals may then be viewed with the scope, as shown on channels 1 through 3. Alternatively, if only one output is being viewed by the scope, a 50ohm termination should be used on the remaining output to achieve more accurate measurements. Figure 9: Example Equipment Set-up Using the VSC8121 Evaluation Board
CLOCKOUT (51.84, 77.76 or 155.52MHz) CLOCKOUTN
TRIGGER
Pattern Generator
900mV(RMS) VEE VCC (0V) (3.3V)
Digital Sampling Scope
CH1 CH2 TRIGGER
Reference Clock (REFCLK)
Low Speed Clock (LSCLK)
J7
J5
VITESSE
Optional Crystal
J9
High-Speed Clock (CO)
High-Speed Clock Complement (CON)
J8
VSC8121 Eval Board
The intent of this section is to answer the most common questions surrounding the use of the VSC8121 Evaluation Board. Please contact your local sales office if there are any additional details that Vitesse Semiconductor can provide to help you make more efficient use of your evaluation board.
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SEMICONDUCTOR CORPORATION
Data Sheet
VSC8121
Ordering Information
2.488GHz SONET/SDH Clock Generator
The order number for this product is formed by a combination of the device number, and package type.
VSC8121 xx
Device Type 2.488GHz SONET/SDH Clock Generator Package Style QI: 44-pin, 10mm x 10 mm PQFP
Notice
Vitesse Semiconductor Corporation (“Vitesse”) provides this document for informational purposes only. All information in this document, including descriptions of features, functions, performance, technical specifications and availability, is subject to change without notice at any time. Nothing contained in this document shall be construed as extending any warranty or promise, express or implied, that any Vitesse product will be available as described or will be suitable for or will accomplish any particular task. Vitesse products are not intended for use in life support appliances, devices or systems. Use of a Vitesse product in such applications without written consent is prohibited.
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SEMICONDUCTOR CORPORATION
2.488GHz SONET/SDH Clock Generator Revision History
Item
1 2 3 4 5 6 7 8
Data Sheet
VSC8121
Rev No.
4.1 4.1 4.1 4.1 4.1 4.1 4.1 4.1
Date
2/4/00 2/4/00 2/4/00 2/4/00 2/4/00 2/4/00 2/4/00 2/4/00
Section/Figure/ Table
General Description Features Application Info Figure 3 Table 4 Table 6 Table 7 Figure
Page
1 1 2 3 6 9,10 12 16
Description
Add CML text to the clock output, Deleted PECL output Changed to High-Speed clock output Add High-Speed CML outputs, Deleted PECL/ECL clock outputs Changed to High-Speed CML Clock output terminations Changed to High-Speed Differential outputs, deleted the PECL/ECL outputs Added Level Column to I/O’s Changed Theta Juntion to Case to 2.0 Changed CH3 to Trigger
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