VITESSE VSC8115

VITESSE
SEMICONDUCTOR CORPORATION
Target Specification
STS-12/STS-3 Multi Rate
Clock and Data Recovery Unit
VSC8115
Features
• Performs clock and data recovery for
622.08Mb/s (STS-12/OC-12/STM-4) or
155.52Mb/s (STS-3/OC-3/STM-1) NRZ data
• Low-jitter high speed outputs can be configured
as either LVPECL or low power LVDS
• Low power - 0.188 Watts Typical Power
• Meets Bellcore, ITU and ANSI Specifications
for Jitter Performance
• +3.3V Power Supply
• 19.44MHz reference frequency LVTTL Input
• 20 Pin TSSOP Package
• Lock Detect output pin monitors data run length
and frequency drift from the reference clock
• Requires One External Capacitor
• Data is Retimed at the Output
• PLL bypass operation facilitates the board
debug process
• Active High Signal Detect LVPECL Input
General Description
The VSC8115 functions as a clock and data recovery unit for SONET/SDH-based equipment to derive high
speed timing signals. The VSC8115 recovers the clock from the scrambled NRZ data operating at 622.08Mb/s
(STS-12/OC-12/STM-4) or 155.52Mb/s (STS-3/OC-3/STM-1). After the clock is recovered, the data is retimed
using an output flip-flop. Both recovered clock and retimed data outputs can be configured as LVDS or
LVPECL signals to facilitate a low-jitter and low power interface.
VSC8115 Block Diagram
STS12
Divider
CAP+
CAPVCO
Phase/
BYPASS
DATAIN+/-
2
Loop Filter
LOCKDET
Freq
2
Detector
DATAOUT+/-
SD
LOCKREFN
REFCLK
G52272-0, Rev. 1.1
9/29/00
0
1
2
CLKOUT+/-±
 VITESSE SEMICONDUCTOR CORPORATION
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Page 1
VITESSE
SEMICONDUCTOR CORPORATION
STS-12/STS-3 Multi Rate
Clock and Data Recovery Unit
Target Specification
VSC8115
Functional Description
The VSC8115 contains an on-chip PLL consisting of a phase/frequency detector, a loop filter using one
external capacitor, a LC-based voltage-controlled oscillator (VCO), and a programmable frequency divider.
The phase/frequency detector compares the phase relationship between the VCO output and an external
19.44MHz LVTTL reference clock to make coarse adjustment to the VCO block so that its output is held within
+500ppm of the reference clock. The use of reference clock minimizes the PLL lock time during power up and
provides a stable output clock source in the absence of serial input data. The phase/frequency detector also compares the phase relationship between the VCO output and the serial data input to make fine adjustment to the
VCO block. The loop filter converts the phase detector output into a smooth DC voltage. This DC voltage is
used as the input to the VCO block whose output frequency is a function of the input voltage. A programmable
frequency divider down converts the VCO output signal and provides two modes of operation: 622.08Mb/s
mode if STS12 is HIGH, or 155.52Mb/s mode if STS12 is LOW.
Lock Detection
The VSC8115 features a lock detection for the PLL. The lock detect (LOCKDET) output goes HIGH to
indicate that the PLL is locked to the serial data inputs and that valid data and clock are present at the high speed
differential outputs. If LOCKDET output is LOW, then either the PLL is forced to lock to the REFCLK input or
the VCO has drifted away from the local reference clock by more than 500 ppm.
Signal Detection
The VSC8115 has a signal detect (SD) input and a lock-to-reference (LOCKREFN) input. The SD pin is a
LVPECL input, and the LOCKREFN pin is a LVTTL input. These two control pins are used to indicate a loss
of signal condition and they are connected inside the part as shown in Figure 1. If either one of these two inputs
goes LOW and BYPASS is LOW, the VSC8115 will enter the loss of signal (LOS) state, and it will hold the
DATAOUT+/- output at logic LOW state. During the LOS state, the VSC8115 also will hold the output clock
CLKOUT+/- to within +500ppm of the REFCLK. See Table 1.
Most of the optical module has a signal detect output. This signal detect output indicates that there is sufficient optical power, and it is typically active HIGH. If the signal detect output on the optical module is
LVPECL, it should be connected directly to the SD input on the VSC8115, and the LOCKREFN input needs to
be tied HIGH. If the signal detect output is LVTTL, it should be connected directly to the LOCKREFN input,
and the SD input needs to be tied HIGH.
The SD and LOCKREFN inputs also can be used for other applications when the users need to hold the
CLKOUT+/- output to within +500ppm of the reference clock and to force the DATAOUT+/- output to the
logic LOW state.
PLL Bypass Operation
The BYPASS pin is intended for use in production test, and it should be set at logic LOW in the normal
operation. If both BYPASS and MODE pins are set at logic HIGH, the VSC8115 will bypass the PLL and will
present an inverted version of the REFCLK to the clock output CLKOUT+/-. The REFCLK’s rising edge is
used to capture data at DATAIN+/- and transmit data at DATAOUT+/-. This bypass operation can be used to
facilitate the board debug process.
Page 2
 VITESSE SEMICONDUCTOR CORPORATION
741 Calle Plano, Camarillo, CA 93012 • 805/388-3700 • FAX: 805/987-5896
G52272-0, Rev. 1.1
9/29/00
VITESSE
SEMICONDUCTOR CORPORATION
Target Specification
STS-12/STS-3 Multi Rate
Clock and Data Recovery Unit
VSC8115
Figure 1: Control Diagram for Signal Detection and PLL Bypass Operation
DATAIN+/-
2
2
PLL Clock
(on-chip)
0
REFCLK
2
DATAOUT+/-
CLKOUT+/-±
1
STS12
BYPASS
LOS
(on-chip)
LOCKREFN
SD
Table 1: Signal Detection and PLL Bypass Operation Control
G52272-0, Rev. 1.1
9/29/00
STS12
BYPASS
LOCKREFN
SD
LOS
DATAOUT
CLKOUT
1
0
1
1
0
DATIN
PLL Clock
1
0
1
0
1
LOW
PLL Clock
1
0
0
1
1
LOW
PLL Clock
1
0
0
0
1
LOW
PLL Clock
1
1
X
X
0
DATIN
REFCLK
0
0
1
1
0
DATIN
PLL Clock
0
0
1
0
1
LOW
PLL Clock
0
0
0
1
1
LOW
PLL Clock
0
0
0
0
1
LOW
PLL Clock
0
1
X
X
0
Not Allowed
Not Allowed
 VITESSE SEMICONDUCTOR CORPORATION
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Page 3
VITESSE
SEMICONDUCTOR CORPORATION
Target Specification
STS-12/STS-3 Multi Rate
Clock and Data Recovery Unit
VSC8115
AC Characteristics
Table 2: Performance Specifications
Parameters
Min
Typ
Max
Units
Conditions
VCO Center Frequency
—
622.08
—
MHz
CRU’s Reference Clock Frequency
Tolerance
-250
—
+250
ppm
OC-12/STS12 Capture Range
—
± 500
—
ppm
With respect to the fixed
reference frequency
Clock Output Duty Cycle
45
—
55
% of UI
20% Minimum transition
density
Acquisition Lock Time OC-12/STS-12
—
—
16
µs
Valid REFCLK and device
already powered up
LVDS Output Rise & Fall Times
—
—
600
ps
10% to 90%, with 100Ω & 5pF
capacitive equivalent load
CLKOUT+/- Jitter Generation
—
0.005
0.01
U.I.
No more than 14ps rms jitter on
DATAIN+/-
OC-12/STS-12 Jitter Tolerance
0.5
—
—
U.I.
Sinusoidal input jitter of
DATAIN+/- from 250KHz to
5MHz
Page 4
 VITESSE SEMICONDUCTOR CORPORATION
741 Calle Plano, Camarillo, CA 93012 • 805/388-3700 • FAX: 805/987-5896
G52272-0, Rev. 1.1
9/29/00
VITESSE
SEMICONDUCTOR CORPORATION
Target Specification
STS-12/STS-3 Multi Rate
Clock and Data Recovery Unit
VSC8115
Jitter Tolerance
Jitter Tolerance is the ability of the Clock and Data Recovery Unit to track timing variation in the received
data stream. The Bellcore and ITU specifications allow the received optical data to contain jitter. The amount
that must be tolerated is a function of the frequency of the jitter. At high frequencies the specifications do not
require the VSC8115 to tolerate large amounts, whereas at low frequencies many unit intervals (bit times) of jitter have to be tolerated. Jitter tolerance is defined as the ratio of jitter on the output OC-N/STS-N signal to the
jitter applied on the input OC-N/STSN signal versus frequency. The VSC8115 is designed to tolerate this jitter
with margin over the specification limits, see Figure 2. The VSC8115 obtains and maintains lock based on the
data transition information. When there is no transition on the data stream, the recovered clock frequency will
be held to within +500ppm of the reference clock. The VSC8115 can maintain lock over 1000 bits of no switching on data stream.
Figure 2: Input Jitter Tolerance Specification
JITTER(UI P-P)
150
Bellcore Requirement
VSC8115 Typical
Jitter Tolerance
24
15
2.4
1.5
0.6
0.15
10
30
300
25K
250K 1M 2.5M
JITTER FREQ(HZ)
Jitter Generation
Jitter generation is defined as the jitter of the serial clock and serial data outputs while rms jitter is presented
to the serial data inputs. Maximum jitter generation is 0.01 U.I. when rms jitter of less than 14ps (OC-12) or
56ps (OC-3) is presented to the serial data inputs.
G52272-0, Rev. 1.1
9/29/00
 VITESSE SEMICONDUCTOR CORPORATION
741 Calle Plano, Camarillo, CA 93012 • 805/388-3700 • FAX: 805/987-5896
Page 5
VITESSE
SEMICONDUCTOR CORPORATION
Target Specification
STS-12/STS-3 Multi Rate
Clock and Data Recovery Unit
VSC8115
Retimed Data and Clock Outputs AC Specification
As indicated in figure 3, it is recommended that the retimed data output be captured with the rising edge of
the clock output. Data valid time is larger for OC-3/STS-3 mode of operation than that of OC-12/STS-12. Data
valid time before the output clock’s rising edge is the available setup time (tsu) while the data valid time after
the clock’s rising edge is the available hold time (th).
Figure 3: Retimed Data and Clock Outputs Timing Diagram
DATAOUT+/-
CLKOUT+
tsu
th
Table 3: Retimed Data and Clock Outputs Timing
Parameters
Description
STS-12 Operation
(622.08MHz)
STS-3 Operation
(155.52MHz)
tsu
Minimum Available Setup Time
450 pS
2.0 nS
th
Minimum Available Hold Time
650 pS
3.0 nS
High Speed Outputs
The high speed output buffers, DATAOUT+/- and CLKOUT+/-, can be terminated as either LVDS or
LVPECL outputs. If used as LVDS outputs, the transmission lines should be routed with 100-ohm differential
impedance, and they need to be terminated at the receive end with a 100-ohm resistor across the differential
pair. If used as LVPECL outputs, the transmission line should be 50-ohm terminated with 50-ohm pull down
resistors near the receiving end.
Page 6
 VITESSE SEMICONDUCTOR CORPORATION
741 Calle Plano, Camarillo, CA 93012 • 805/388-3700 • FAX: 805/987-5896
G52272-0, Rev. 1.1
9/29/00
VITESSE
SEMICONDUCTOR CORPORATION
Target Specification
STS-12/STS-3 Multi Rate
Clock and Data Recovery Unit
VSC8115
DC Characteristics
Table 4: LVPECL Single-ended Inputs and Outputs
Parameters
Description
Min
Typ
Max
Units
Conditions
VIH
Input HIGH voltage
VDD - 1.125
—
VDD - 0.5
V
Guaranteed Input HIGH
Voltage
VIL
Input LOW voltage
VDD - 2.0
—
VDD - 1.5
V
Guaranteed Input LOW
Voltage
IIH
Input HIGH current
-0.5
—
10
µA
VIN = VDD - 0.5V
IIL
Input LOW current
-0.5
—
10
µA
VIN = VDD - 2.0V
VOL
Output LOW voltage
VDD - 2.0
—
VDD - 1.8
V
50Ω to (VDD - 2V)
VOH
Output HIGH voltage
VDD - 1.25
—
VDD - 0.67
V
50Ω to (VDD - 2V)
Table 5: LVPECL Differential Inputs
Parameters
Min
Typ
Max
Units
Conditions
VIH
Input HIGH
voltage
VDD - 1.75
—
VDD - 0.45
V
Guaranteed Input
HIGH Voltage
VIL
Input LOW
voltage
VDD - 2.0
—
VDD - 0.7
V
Guaranteed Input
LOW Voltage
Differential
Input Voltage
250
—
—
mV
—
IIH
Input HIGH
current
-0.5
—
10
µA
∆VIN = 0.5V
IIL
Input LOW
current
-0.5
—
10
µA
∆VIN = 0.5V
∆VIN
G52272-0, Rev. 1.1
9/29/00
Description
 VITESSE SEMICONDUCTOR CORPORATION
741 Calle Plano, Camarillo, CA 93012 • 805/388-3700 • FAX: 805/987-5896
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VITESSE
SEMICONDUCTOR CORPORATION
Target Specification
STS-12/STS-3 Multi Rate
Clock and Data Recovery Unit
VSC8115
Table 6: LVDS Differential Outputs
Parameters
Description
Min
Typ
Max
Units
Conditions
VOCM
Common Mode
voltage
1.0
1.35
1.7
V
100Ω PAD to
PADN
∆VOUT
Differential
Output Swing
350
500
750
mV
100Ω PAD to
PADN
Min
Typ
Max
Units
Conditions
Table 7: LVPECL Differential Outputs
Parameters
Description
VOCM
Common Mode
voltage
1.12
-
2.0
V
50Ω to (VDD - 2V)
∆VOUT
Differential
Output Swing
400
-
800
mV
50Ω to (VDD - 2V)
Table 8: LVTTL Inputs
Parameters
Description
Min
Typ
Max
Units
Conditions
VIH
Input HIGH voltage
2.0
—
VDD
V
—
VIL
Input LOW voltage
0
—
0.8
V
—
IIH
Input HIGH current
-50
---
50
µA
VIN = 2.7V, VDD=MAX
IIL
Input LOW current
-50
---
50
µA
VIN = 0.5V, VDD=MAX
Power Dissipation
Table 9: Power Supply Currents
Parameter
Page 8
Description
IDD
Power supply current from VDD
PD
Power dissipation
(Typ)
(Max)
Units
57
80
mA
188.1
277
mW
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741 Calle Plano, Camarillo, CA 93012 • 805/388-3700 • FAX: 805/987-5896
G52272-0, Rev. 1.1
9/29/00
VITESSE
SEMICONDUCTOR CORPORATION
Target Specification
STS-12/STS-3 Multi Rate
Clock and Data Recovery Unit
VSC8115
Absolute Maximum Ratings(1)
Power Supply Voltage (VDD) Potential to GND.................................................................................-0.5V to +4V
DC Input Voltage (LVPECL Inputs)..................................................................................... -0.5V to VDD + 0.5V
DC Input Voltage (LVTTL Inputs) ....................................................................................... -0.5V to VDD + 0.5V
Output Current (LVDS or LVPECL Outputs).......................................................................................... +/-50mA
Case Temperature Under Bias.........................................................................................................-55o to +125oC
Storage Temperature .................................................................................................................... -65oC to +150oC
Maximum Input ESD (Human Body Model)
High Speed Outputs (pins 11, 12, 13, & 14) .................................................................................... 500V
All Other Pins ................................................................................................................................. 1500V
Note: 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 (VDD)................................................................................................................+3.3V ± 5 %
Industrial Operating Ambient Temperature Range under Bias ......................................................... -40o to 85oC
Commercial Operating Ambient Temperature Range under Bias ....................................................... 0o to 70oC
Package Pin Descriptions
Figure 4: Pin Diagram
G52272-0, Rev. 1.1
9/29/00
VDDA
1
20
VDDA
DATAIN+
2
19
VSSA
DATAIN-
3
18
CAP+
VSSA
4
17
CAP-
LOCKDET
5
16
BYPASS
STS12
6
15
SD
REFCLK
7
14
DATAOUT+
LOCKREFN
8
13
DATAOUT-
VSS
9
12
CLKOUT+
VDD
10
11
CLKOUT-
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VITESSE
SEMICONDUCTOR CORPORATION
Target Specification
STS-12/STS-3 Multi Rate
Clock and Data Recovery Unit
VSC8115
Table 10: Pin Identification
Signal
I/O
Level
Pin Description
DATAIN+/-
I
LVPECL
DATAOUT+/-
O
LVDS/LVPECL
High speed differential data out. This is the retimed version of the
receive data input (DATAIN+/-). Can be configured as either LVDS
or LVPECL signal.
CLKOUT+/-
O
LVDS/LVPECL
High speed differential clock out This clock is recovered from the
receive data input (DATAIN+/-). Can be configured as either LVDS
or LVPECL signal.
STS12
I
LVTTL
STS-12 or STS-3 mode selection. Set HIGH to select the STS-12
operation. Set LOW to select the STS-3 operation.
LOCKREFN
I
LVTTL
Lock to REFCLK input. When set LOW, it holds the CLKOUT+/output to within +500ppm of the REFCLK input, and it forces the
DATAOUT+/- output to the LOW state.
Receive data in. The high speed output clock (CLKOUT+/-) is
recovered from this high speed differential input data.
SD
I
LVPECL
Signal Detect. SD should be connected to the SD output on the
optical module. SD is active HIGH. When SD is set HIGH, it means
that there is sufficient optical power. When SD is set LOW to
indicate loss of signal condition, the CLKOUT+/- output signal will
be held to within +500ppm of the REFCLK input; in additions, the
DATAOUT+/- will be held in the LOW state.
REFCLK
I
LVTTL
19.44 MHz local reference clock input for the CRU. REFCLK is used
for the PLL phase adjustment during power up, and it also serves as a
stable clock source in the absence of serial input data.
Active HIGH to indicate that PLL is locked to serial data input, and
valid clock and data are present at the serial outputs (DATAOUT+/and CLKOUT+/-). The LOCKDET will go inactive under the
following conditions:
(1). If SD is set LOW.
(2). If LOCKREFN is set LOW.
(3). If the VCO has drifted away from the local reference
clock REFCLK by more than 500 ppm.
LOCKDET
O
LVPECL
BYPASS
I
LVTTL
Used for production test. Set to VSS for normal operation.
CAP+/CAP-
I
Analog
External loop filter pins. The loop filter capacitor should be
connected to these pins. The capacitor value should be 1.0uF +10%
tolerance.
VDD
+3.3V
+3.3V Power Supply for low speed I/O’s and on-chip digital CMOS
blocks.
VSS
GND
Ground pin for low speed I/O’s and on-chip digital CMOS blocks
VDDA
+3.3V
+3.3V Power Supply for high speed I/O’s and on-chip PLL blocks.
VSSA
GND
Ground pins for high speed I/O’s and on-chip PLL blocks.
Page 10
 VITESSE SEMICONDUCTOR CORPORATION
741 Calle Plano, Camarillo, CA 93012 • 805/388-3700 • FAX: 805/987-5896
G52272-0, Rev. 1.1
9/29/00
VITESSE
SEMICONDUCTOR CORPORATION
Target Specification
STS-12/STS-3 Multi Rate
Clock and Data Recovery Unit
VSC8115
Package Information
TSSOP Package Drawings
Key
Min
Nom
Max
−
−
1.10
0.90
0.95
A
−
A1
0.05
A2
0.85
aaa
0.076
b
0.19
−
0.30
b1
0.19
0.22
0.25
bbb
G52272-0, Rev. 1.1
9/29/00
0.15
0.10
c
0.09
−
0.20
c1
0.09
0.127
0.16
E1
4.30
4.40
4.50
e
0.65 BSC
E
6.40 BSC
L
0.50
θ
0°
0.60
−
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741 Calle Plano, Camarillo, CA 93012 • 805/388-3700 • FAX: 805/987-5896
0.70
8°
Page 11
VITESSE
SEMICONDUCTOR CORPORATION
Target Specification
STS-12/STS-3 Multi Rate
Clock and Data Recovery Unit
VSC8115
Package Thermal Characteristics
The VSC8115 is packaged in a Thin Shrink Small Outline Package (TSSOP). This package conforms to
JEDEC package outline standards. It has hi-conductivity copper lead frames and a very low-stress mold compound. The junction to case thermal resistance is 80oC/W for multi-layer PCB applications and 126oC/W for
single-layer PCB applications. The air flow versus thermal resistance relationship for multi-layer PCB applications is shown in Table 11.
Table 11: Theta Case to Ambient versus Air Velocity
Air Velocity
(LFPM)
Case to Air
Thermal
Resistance
(oC/W)
Ta (Ambient Temperature) Range (oC)
YA
YA1
YA2
(0oC to 75oC ) Tcase
(0oC to 103oC ) Tcase
(-40oC to 85oC ) Tcase
0
55.0
15.4
to
59.6
15.4
to
87.6
-55.4
to
69.6
100
52.0
14.6
to
60.4
14.6
to
88.4
-54.6
to
70.4
200
49.0
13.7
to
61.3
13.7
to
89.3
-53.7
to
71.3
400
46.0
12.9
to
62.1
12.9
to
90.1
-52.9
to
72.1
Ordering Information
The order number for this product are:
Part Number
VSC8115YA:
VSC8115YA1
VSC8115YA2
Device Type
STS-12/STS-3 Multi-Rate Clock and Data Recovery Unit in a 20 Pin TSSOP
Commercial Temperature, 0°C ambient to 70°C case
STS-12/STS-3 Multi-Rate Clock and Data Recovery Unit in a 20 Pin TSSOP
Extended Temperature, 0°C ambient to 110°C case
STS-12/STS-3 Multi-Rate Clock and Data Recovery Unit in a 20 Pin TSSOP
Industrial Temperature, -40°C ambient to 85°C case
Notice
This document contains information about a proposed product during its design phase of development and
is subject to change without notice at any time. All features and specification are design goals only. Please contact Vitesse Semiconductor to obtain the latest product status and most recent versions of this specification.
Warning
Vitesse Semiconductor Corporation’s product are not intended for use in life support appliances, devices or
systems. Use of a Vitesse product in such applications without the written consent is prohibited.
Page 12
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G52272-0, Rev. 1.1
9/29/00