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VITESSE
SEMICONDUCTOR CORPORATION
Target Specification
VSC8124
Features
* Four Channel 2.488 Gb/s Data Recovery * SONET Quality Jitter Tolerance * Fastlock Data Acquisition less than 200 Bit Times * Loss of Signal Indicators * Long Strings of Static Data Tolerated by the Clock Recovery Circuit without Loss of Signal * First Order Clock Recovery Loop Minimizes Jitter Accumulation
2.488 Gb/s Quad Data Re-timer
* Differential on Chip Terminated Serial Data I/O * Bypass for OC3, OC12 Data Rates * 155.52 MHz Reference Clock Frequency * 3.3V Supply Operation * 14 x 14mm, 100 Pin Thermally Enhanced TQFP Package
General Description
The VSC8124 is a four channel, 2.5 Gb/s data re-timer for cleaning up data downstream of optical links or cross point switches. Serial data at the 2.5 Gb/s rate is independently re-timed on four channels, and driven differentially by CML drivers. The re-timing function on each channel can be individually bypassed for lower rate signals or test purposes. The VSC8124 provides four independent loss of signal indicators in the event of loss of synchronous data transitions.
G52271-0, Rev. 1.14
2/23/00
(c) VITESSE SEMICONDUCTOR CORPORATION 741 Calle Plano, Camarillo, CA 93012 * 805/388-3700 * FAX: 805/987-5896
Page 1
VITESSE
SEMICONDUCTOR CORPORATION
2.488 Gb/s Quad Data Re-timer
Target Specification
VSC8124
VSC8124 Block Diagram
SD3+ CML SD3RTBYP3 TTL
1 0
CML
RDAT3+ RDAT3-
RDAT2+ LOSREL TTL
RTBYP2 TTL SD2+ CML SD2REFCK0+ PECL REFCK0REFCK1+ PECL REFCK1REFCK+ TTL
Clock Recovery Unit
CML
RDAT2LOSALMN
1 0
TTL LOS3N
0 1
Clock Recovery Unit
LOS Logic
TTL LOS2N
TTL LOS1N SD1+ CML SD11 0
TTL LOS0N
RTBYP1 TTL
FASTLOCK
Clock Recovery Unit
CML
RDAT1+ RDAT1-
TTL
RTBYP0 TTL
1 0
CML
RDAT0+ RDAT0-
SD0+ CML SD0-
Clock Recovery Unit
Page 2
(c) VITESSE SEMICONDUCTOR CORPORATION 741 Calle Plano, Camarillo, CA 93012 * 805/388-3700 * FAX: 805/987-5896
G52271-0, Rev. 1.14
2/23/00
VITESSE
SEMICONDUCTOR CORPORATION
Target Specification
VSC8124
Functional Description
Reference Clock
2.488 Gb/s Quad Data Re-timer
A clean reference clock should be provided to meet jitter specifications. An arbitrary discontinuity in reference clock phase can be tolerated without data error at slightly reduced jitter tolerance. (See Table 1) Phase changes must not occur more often than every 20 s. Serial data transition density must average 0.5 for that period. Two reference clock input ports are provided. The REFSEL pin selects the active port. When REFSEL is not driven, it floats low, selecting REFCK0. Changing REFSEL implies a phase change.
Clock Recovery
The incoming serial data on each channel is presented to a clock recovery and data re-timing circuit. For each channel, a phase detector and low pass filter force a local clock to track the average phase of the incoming serial data. The low pass filter is first order to prevent jitter peaking in cascaded devices.
Figure 1: Serial Input Data Eye Diagram
JT
Eye Opening Period
Table 1: Serial Input Data Specification Parameter
JT JT JT Period
Description
Jitter tolerance Jitter tolerance Jitter tolerance
Min
220 150 190 -
Typ
170 210 401.88
Max
-
Units
ps ps ps ps
Conditions
Normal Operation Fast Lock Mode Within 20s after
REFCLK phase change
NOTE: 1) Jitter tolerance is measured at worst case power supply and temperature, using 155.52 MHz clean reference clock (REFCK to meet 2.0 ps RMS jitter at less than 10 Mhz in bandwidth), and 600mV swing differential PRBS data with150ps maximum rise time. 2) Jitter tolerance and re-timed data jitter are degraded in FASTLOCK mode. 3) Reference clock frequency tolerance: f <= 100 ppm 4) Jitter tolerance specifications do not apply in re-timer bypass mode.
G52271-0, Rev. 1.14
2/23/00
(c) VITESSE SEMICONDUCTOR CORPORATION 741 Calle Plano, Camarillo, CA 93012 * 805/388-3700 * FAX: 805/987-5896
Page 3
VITESSE
SEMICONDUCTOR CORPORATION
2.488 Gb/s Quad Data Re-timer
Target Specification
VSC8124
Figure 2: Re-timed Serial Output Data Eye Diagram
Period
80%
20% tr , tf
JG
Table 2: Serial Output Data Specification Parameter
JG JG JG tr, tf
Description
Jitter generation Jitter generation Jitter generation Rise time, fall time
Min
-
Typ
-
Max
12ps rms 15 ps rms 14ps rms 140
Units
Conditions
Normal Operation Fast Lock Mode Within 40 s after REFCK phase change
ps
20 to 80%
NOTES: 1) Jitter generation is measured at worst case power supply and temperature using 155.52 MHz clean reference clock and clean serial data. 2) Jitter generation and rise, fall time specifications do not apply in re-timer bypass mode.
Page 4
(c) VITESSE SEMICONDUCTOR CORPORATION 741 Calle Plano, Camarillo, CA 93012 * 805/388-3700 * FAX: 805/987-5896
G52271-0, Rev. 1.14
2/23/00
VITESSE
SEMICONDUCTOR CORPORATION
Target Specification
VSC8124
Figure 3: Fastlock Timing Diagram
200 Bit Times Input Data Valid Data 1010... 80 Bit Times Fastlock 200 Bit Times Output Data Valid Data
2.488 Gb/s Quad Data Re-timer
Valid Data
Valid Data
Fast Lock
The VSC8124 supports a fastlock clock recovery mode which enables the clock recovery unit to lock the retiming clock to the incoming data within 80 bit periods of initiation. As a requirement for the operation of the fastlock function, the driving system must send a 0101 bit pattern while the fastlock pin is at a high logic level. The FASTLOCK function is active simultaneously on all four data channels The fastlock pin has a TTL input receiver meeting the specifications contained in Table 7. Note that jitter tolerance and re-timed data jitter are degraded in FASTLOCK mode.
Loss of Signal
The loss of signal (LOS) circuitry is shared among four serial data channels, sampling the signal condition on each channel sequentially. There is a loss of signal latch and active low indicator pin (LOS[0:3]N) for each channel. In addition, there is an alarm pin (LOSALMN) which indicates the OR of the latched states of the four channel indicators. The alarm pin uses an open drain output, so the alarm pins from multiple parts can be wired together. A weak external pull resistor (approximately 1k Ohm) must be provided to utilize the wired NOR alarm function. To facilitate system troubleshooting, the LOS latches can only be cleared by the active high LOSCLR input. The loss of signal clear (LOSCLR) input will cause all four loss of signal indicators LOS[0:3]N and the loss of signal alarm (LOSALM) to be cleared. The LOSCLR input is asynchronous. It must be held active for at least two reference clock cycles. A channel found to be missing after the error latch has been cleared, will again set its error latch and the LOSALMN. The LOS circuit examines a selected clock recovery channel for expected data transition activity. Expected data activity includes pseudo-random data at a baud rate 16 times the reference clock frequency, and data including at least 8500 consecutive bits of a 101010... pattern. The detector will allow the OC-48 framing pattern to pass without triggering LOS. The LOS detector is disabled when FASTLOCK mode is active. To assist diagnostic procedures, the effect of individual loss of signal indicators in the loss of signal alarm can be masked. This is controlled by the MASK[0:3] pins. Each of those pins, when pulled high, disables the effect of its respective channel on the loss of signal alarm (LOSALM). If all MASK pins are pulled high, the LOSALM signal will not pull down. The loss of signal indicators for individual channels are not affected by the MASK pins.
G52271-0, Rev. 1.14
2/23/00
(c) VITESSE SEMICONDUCTOR CORPORATION 741 Calle Plano, Camarillo, CA 93012 * 805/388-3700 * FAX: 805/987-5896
Page 5
VITESSE
SEMICONDUCTOR CORPORATION
2.488 Gb/s Quad Data Re-timer
Target Specification
VSC8124
Re-timer Bypass
The serial data re-timer can be individually bypassed for data channels. This allows asynchronous data signals to pass through the part. The bypass function is controlled by the RTBYP[0:3] pins.
High Speed Interfaces
Figure 4: High Speed Data Input Termination- AC Coupled
Xpnt switch
Zo = 50 0.1 F
Quad data Re-timer DI
50
VTERM
50
Zo = 50 0.1 F
DIN
Notes: 1)It is recommended that VTERM pins from multiple inputs NOT be tied together, unless driven from a low impedance supply. 2) The high speed data receivers have self biased inputs. 3) For unused serial data receivers, it is recommended to tie one side low by connecting a 1k Ohm resistor to Vee and letting the other side float.
Page 6
(c) VITESSE SEMICONDUCTOR CORPORATION 741 Calle Plano, Camarillo, CA 93012 * 805/388-3700 * FAX: 805/987-5896
G52271-0, Rev. 1.14
2/23/00
VITESSE
SEMICONDUCTOR CORPORATION
Target Specification
VSC8124
Figure 5: High Speed Data Output Termination - AC Coupled AC Coupled
2.488 Gb/s Quad Data Re-timer
Quad data Re-timer
DOUT
VCC 50 0.1 F Zo = 50
VCC 50
DOUTN
50 VCC
0.1 F
Zo = 50
50 VCC
DC Coupled
Quad data Re-timer
DOUT
VCC Zo = 50 50 50 50 Zo = 50 VCC
DOUTN
50
Figure 6: REFCK Input Termination - AC Coupled REFCK Driver
Zo = 50 0.1 F
Quad data Re-timer DI
50
VTERM
50
Zo = 50 0.1 F
DIN
Notes: 1) It is recommended that the VTERM pins from multiple inputs NOT be tied together, unless driven from a low impedance supply. 2) The reference clock receivers have self-biased inputs. 3) For unused reference clock receivers, it is recommended to tie one side low by connecting a 1k Ohm resistor to Vee, and letting the other side float.
G52271-0, Rev. 1.14
2/23/00
(c) VITESSE SEMICONDUCTOR CORPORATION 741 Calle Plano, Camarillo, CA 93012 * 805/388-3700 * FAX: 805/987-5896
Page 7
VITESSE
SEMICONDUCTOR CORPORATION
2.488 Gb/s Quad Data Re-timer
Target Specification
VSC8124
Figure 7: Unused High Speed and REFCK Input Termination.
VCC 5.1 k
Quad data Re-timer DI
50
VTERM
50
DIN
5.1 k VEE
High Speed Specifications
Figure 8: Definition of I/O Levels
Vh
V
Vcm
Vl
NOTE: Diagram applies to all I/O swing specifications
Table 3: High Speed Driver Specification Parameter
V=(Vh - Vl) VCM ZOUT
Description
Single ended peak-topeak Output common mode Ouput impedance
Min
600 1.8V 40
Typ
50
Max
1000 2.2 60
Units
mV V
Conditions
Terminated as in Fig. 5 (DC Coupled) Terminated as in Fig.5 (DC Coupled) Measured Singleended
Page 8
(c) VITESSE SEMICONDUCTOR CORPORATION 741 Calle Plano, Camarillo, CA 93012 * 805/388-3700 * FAX: 805/987-5896
G52271-0, Rev. 1.14
2/23/00
VITESSE
SEMICONDUCTOR CORPORATION
Target Specification
VSC8124
Table 4: AC Coupled High Speed Receiver Specifications Parameter
V=Vh-Vl Zin NOTE: 1) See Figure 8
2.488 Gb/s Quad Data Re-timer
Description
Input swing
(1)
Min
200 80
Typ
-
Max
1200 120
Units
mV
Conditions
Differential input impedance
Table 5: DC Coupled High Speed Receiver Specifications Parameter
Vcm Vih Vil V=Vh-Vl
Description
Input common mode Input high level Input low level Input swing
Min
VEE+0.9 VEE 200
Typ
0.43VCC -
Max
VCC-1.0 VCC-1.2 1200
Units
V V V mV
Conditions
Table 6: REFCK Receiver Specifications Parameter
V=Vh-Vl Vcm Zin
Description
Input swing(1) Input common mode Differential input impedance
Min
400 1.27 80
Typ
-
Max
1300 1.49 120
Units
mV V
Conditions
NOTE: 1) See Figure 8
Table 7: TTL Input (internal pull-down) Receiver Specifications Parameter
Vih Vil Iilh Iill
Description
Input high level Input low level Input leakage current high Input leakage current low
Min
2000 -
Typ
-
Max
800 1 1
Units
mV mV mA mA
Conditions
Vin = 3.3V Vin = 0V
Table 8: TTL Output Driver Specifications Parameter
Voh Vol
Description
Output high level Output low level
Min
2400 -
Typ
-
Max
400
Units
mV mV
Conditions
G52271-0, Rev. 1.14
2/23/00
(c) VITESSE SEMICONDUCTOR CORPORATION 741 Calle Plano, Camarillo, CA 93012 * 805/388-3700 * FAX: 805/987-5896
Page 9
VITESSE
SEMICONDUCTOR CORPORATION
2.488 Gb/s Quad Data Re-timer
Parameter
tr tf Iolh Ioll toez
Target Specification
VSC8124
Description
Rise Time Fall Time Output leakage current high Output leakage current low
Min
-
Typ
-
Max
5 5 2 4 10
Units
ns ns mA mA ns
Conditions
10 to 90% 10pF load 10 to 90% 10pF load Vout = 2.0V, tristate enabled Vout = 0.8V, tristate enabled
Tristate enabled to high Z
Table 9: Power Supply Specifications Parameter
Power supply voltage Power dissipation
Description
Min
3.15 -
Typ
3.30 2.7
Max
3.46 3.25
Units
V W
Conditions
Page 10
(c) VITESSE SEMICONDUCTOR CORPORATION 741 Calle Plano, Camarillo, CA 93012 * 805/388-3700 * FAX: 805/987-5896
G52271-0, Rev. 1.14
2/23/00
VITESSE
SEMICONDUCTOR CORPORATION
Target Specification
VSC8124
Absolute Maximum Ratings
2.488 Gb/s Quad Data Re-timer
Power Supply Voltage, (VCC) ......................................................................................................-0.5 V to +4.0 V DC Input Voltage (Differential inputs) .................................................................................-0.5 V to VCC + 0.5V DC Input Voltage (TTL inputs)............................................................................................ -0.5 V to VCC + 0.5 V DC Output Voltage (TTL outputs .........................................................................................-0.5 V to VCC + 0.5V Output Current (TTL outputs) ..................................................................................................................+/- 50mA Output Current (Differential outputs).......................................................................................................+/- 50mA Case Temperature Under Bias........................................................................................................-55o to + 100oC
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 Voltages (VCC)............................................................................................................. +3.3V 5 % Operating Case Temperature Range (T)................................................................................................ 0o to 85oC
Notes: (1) Customer may require cooled/heatsink environment to meet thermal requirements of 100TQFP. (2) Contact factory for package thermal performance information. (3) JC = 6oC/W
ESD Ratings
Proper ESD procedures should be used when handling this product. The VSC8124 is rated to the following ESD voltages based on the human body model: 1. High speed pins are rated 200V 2. All other pins are rated at or above 1500V.
G52271-0, Rev. 1.14
2/23/00
(c) VITESSE SEMICONDUCTOR CORPORATION 741 Calle Plano, Camarillo, CA 93012 * 805/388-3700 * FAX: 805/987-5896
Page 11
VITESSE
SEMICONDUCTOR CORPORATION
2.488 Gb/s Quad Data Re-timer
Target Specification
VSC8124
Figure 9: Package Pin Diagram
Package Pin Descriptions VSC8124 2.488 Gb/s Re-timer
FASTLOCK LOSALMN LOSCLR RDAT3+ RDAT2+ RDAT3-
RDAT2-
TRITTL
VCCA2
VEEA2
LOS3N
LOS2N
LOS1N
LOS0N
VCC
VCC
100
99
98
97
96
95
94
93
92
91
90
89
85
84
87
86
83
88
82
79
78
77
81
80
76 75 74 73 72 71 70 69 68 67 66 65 64
VCC
VEE
VEE
VTT
VEE
VEE
3VS
NC
NC
VCC REV VEE SDAT3+ VTERM3 SDAT3VEE VCC SDAT2+ VTERM2 SDAT2VEE
1 2 3 4 5 6 7 8 9 10 11 12
VCC VEE MASK3 MASK2 MASK1 MASK0 VCC REFCK1+ VTERM5 REFCK1VEE REFCK0+
VCC VCC SDAT1+
VTERM1 SDAT1VCC VEE SDAT0+ VTERM0 SDAT0VCC VEE VCC
13 14 15
16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 35 36 37 33 34 41 42
63 62 61
60 59 58 57 56 55 54 53 52 51
VTERM4 REFCK0VCC
REFSEL VCC_ANA VEE_ANA TEST57 TEST56 TEST55 TEST54 TEST53 VEE VCC
39
40
43
38
44
47
48
49 VEE
45
RDAT0-
RDAT0+
RDAT1+
RDAT1-
RTBYP0
RTBYP1
RTBYP2
RTBTP3
CKBYP
VCC
VCC
NC
VCC
46
VCC
TEST30
VCCA1
VEEA1
TEST47
Page 12
(c) VITESSE SEMICONDUCTOR CORPORATION 741 Calle Plano, Camarillo, CA 93012 * 805/388-3700 * FAX: 805/987-5896
VCC
VEE
VEE
NC
VTT
VEE
50
Drawing is heat sink up Cavity Down Package 100 Pin TQFP 14x14x1.4 mm BODY + 2.0mm footprint
G52271-0, Rev. 1.14
2/23/00
VITESSE
SEMICONDUCTOR CORPORATION
Target Specification
VSC8124
Table 10: Package Pin Identification Signal
VCC REV VEE SDAT3+ VTERM3 SDAT3VEE VCC SDAT2+ VTERM2 1 SDAT2VEE VCC VCC SDAT1+ VTERM1 1 SDAT1VCC VEE SDAT0+ VTERM0 SDAT0VCC VEE VCC VCC VEE VCC TEST29 TEST30 VEE RDAT0+ NC RDAT0VCCA1
2 1 1
2.488 Gb/s Quad Data Re-timer
Pin
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37
I/O
PWR O PWR I PWR I PWR PWR I PWR I PWR PWR PWR I PWR I PWR PWR I PWR I PWR PWR PWR PWR PWR PWR I I PWR O O PWR PWR O
Level
+3.3V ANALOG GND CML VTERM CML GND +3.3V CML VTERM CML GND +3.3V +3.3V CML VTERM CML +3.3V GND CML VTERM CML +3.3V GND +3.3V +3.3V GND +3.3V TTL TTL GND CML NC CML +3.3V GND CML
Pin Description
Do not connect High speed data input High speed data input
High speed data input High speed data input
High speed data input High speed data input
High speed data input High speed data input
Do not connect Do not connect Retimed data output Retimed data output
VEEA1 2 RDAT1+
Retimed data output
G52271-0, Rev. 1.14
2/23/00
(c) VITESSE SEMICONDUCTOR CORPORATION 741 Calle Plano, Camarillo, CA 93012 * 805/388-3700 * FAX: 805/987-5896
Page 13
VITESSE
SEMICONDUCTOR CORPORATION
2.488 Gb/s Quad Data Re-timer
Table 10: Package Pin Identification Signal
NC RDAT1VEE VCC VTT RTBYP0 RTBYP1 RTBYP2 RTBYP3 TEST47 VCC VEE VCC VCC VEE TEST53 TEST54 TEST55 TEST56 TEST57 VEE_ANA VCC_ANA REFSEL VCC REFCK0VTERM4 VEE REFCK11
Target Specification
VSC8124
Pin
38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66
I/O
O PWR PWR PWR I I I I I PWR PWR PWR PWR PWR I I I I I PWR PWR I PWR I PWR I PWR I
Level
NC CML GND +3.3V +1.3V TTL TTL TTL TTL TTL +3.3V GND +3.3V +3.3V GND GND +3.3V TTL +3.3V LVPECL VTERM LVPECL GND LVPECL
Pin Description
Retimed data output
Do not connect Re-timer bypass Re-timer bypass Re-timer bypass Re-timer bypass Do not connect
Do not connect Do not connect Do not connect Do not connect Do not connect
Reference clock select 155 MHz ref. clock 155 MHz ref. clock Alternate ref. clock
REFCK0+
Page 14
(c) VITESSE SEMICONDUCTOR CORPORATION 741 Calle Plano, Camarillo, CA 93012 * 805/388-3700 * FAX: 805/987-5896
G52271-0, Rev. 1.14
2/23/00
VITESSE
SEMICONDUCTOR CORPORATION
Target Specification
VSC8124
Table 10: Package Pin Identification Signal
VTERM5 VCC MASK0 MASK1 MASK2 MASK3 VEE VCC VCC VEE TRITTL LOSALMN LOS0N LOS1N LOS2N LOS3N VTT VCC VEE RDAT2NC RDAT2+ VEEA2
2 1
2.488 Gb/s Quad Data Re-timer
Pin
67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100
I/O
PWR I PWR I I I I PWR PWR PWR PWR I O O O O O PWR PWR PWR O O PWR PWR O O PWR I I PWR PWR PWR
Level
VTERM LVPECL +3.3V TTL TTL TTL TTL GND +3.3V +3.3V GND TTL Open Drain TTL TTL TTL TTL +1.3V +3.3V GND CML NC CML GND +3.3V CML NC CML GND TTL TTL GND +3.3V
Pin Description
Alternate ref. clock LOS mask enable LOS mask enable LOS mask enable LOS mask enable
REFCK1+
Tri-state enable Loss of signal alarm Loss of signal indicator Loss of signal indicator Loss of signal indicator Loss of signal indicator Do not connect
Retimed data output Retimed data output
VCCA2 2 RDAT3NC RDAT3+ VEE LOSCLR FASTLOCK VEE 3VS VCC
1
Retimed data output Retimed data output LOS clear Fast lock enable Do not connect
All pins indicated with superscript (1), while having different names, use the same voltage, but are isolated in the part for noise immunity. 2All pins indicated with superscript (2), while having different names, use the same voltage, but are isolated in the part for noise immunity.
G52271-0, Rev. 1.14
2/23/00
(c) VITESSE SEMICONDUCTOR CORPORATION 741 Calle Plano, Camarillo, CA 93012 * 805/388-3700 * FAX: 805/987-5896
Page 15
VITESSE
SEMICONDUCTOR CORPORATION
2.488 Gb/s Quad Data Re-timer
Target Specification
VSC8124
Table 11: Power Supply Pin Summary Signal
VCC
Pin
1,8,13,14,18,23, 25,26,28,41,48,50, 51,62,70,75,76,85, 100 3,7,12,19,24,27, 31,40,49,52,65, 74,77,86,95,98 42,84 35 91 36 90 59 58 5,10,16,21,64,68, 72
I/O
PWR
Level
+3.3V
Pin Description
VEE VTT VCCA1 VCCA2 VEEA1 VEEA2 VCC_ANA VEE_ANA VTERM[0:5]
PWR PWR PWR PWR PWR PWR PWR PWR PWR
GND +1.3V +3.3V +3.3V GND GND +3.3V GND VCC/2 dirty VCC for RDAT[0:1] dirty VCC for RDAT[2:3] dirty VEE for RDAT[0:1] dirty VEE for RDAT[2:3] clean VCC for VCO/CMU clean VEE for VCO/CMU
All supplies which reference the same voltage may be connected to the same power supply plane. The VCCANA and VEEANA are noise sensitive supplies, while the VCCA1, VCCA2, VEEA1 and VEEA2 are noise generating supplies. Appropriate power supply noise suppression should be applied to optimize the performance of the device.
Page 16
(c) VITESSE SEMICONDUCTOR CORPORATION 741 Calle Plano, Camarillo, CA 93012 * 805/388-3700 * FAX: 805/987-5896
G52271-0, Rev. 1.14
2/23/00
VITESSE
SEMICONDUCTOR CORPORATION
Target Specification
VSC8124
Typical Application
2.488 Gb/s Quad Data Re-timer
This table lists the suggested connections for non-data path pins for a typical 2.5 Gb/s application which does not use the fast locking, channel re-timer bypassing, or loss of signal alarm masking. Users of those features should take care to understand the functions before connecting to the control pins.
Table 12: Recommended Pin Usage Pin Number
2 29 30 42 43 44 45 46 47 53 54 55 56 57 60 62 64 66 68 70 71 72 73 78 79 80 81 82 83 84 96 97 99
Pin Name
REV CKBYP TEST30 VTT RTBYP0 RTBYP1 RTBYP2 RTBYP3 TEST47 TEST53 TEST54 TEST55 TEST56 TEST57 REFSEL REFCK0REFCK0+ REFCK1REFCK1+ MASK0 MASK1 MASK2 MASK3 TRITTL LOSALMN LOS0N LOS1N LOS2N LOS3N VTT LOSCLR FASTLOCK 3VS Do not connect Do not connect Do not connect
Recommended Hook-up
Internally generated power supply; Do not connect Re-timer bypass; Do not connect Re-timer bypass; Do not connect Re-timer bypass; Do not connect Re-timer bypass; Do not connect Do not connect Do not connect Do not connect Do not connect Do not connect Do not connect Reference clock select; to use REFCK0, do not connect Reference clock 0-; Connect your reference clock true here Reference clock 0+; Connect your reference clock complement here Reference clock 1-; 1k Ohm to Vee Reference clock 1+; Do not connect Mask alarm; Do not connect Mask alarm; Do not connect Mask alarm; Do not connect Mask alarm; Do not connect Tri-state TTL outputs; Do not connect Loss of signal alarm; if used, 1k Ohm to Vcc otherwise do not connect Loss of signal channel 0; connect to CMOS input Loss of signal channel 0; connect to CMOS input Loss of signal channel 0; connect to CMOS input Loss of signal channel 0; connect to CMOS input Internally generated power supply; Do not connect Loss of signal clear; CMOS input (3.3V max.) Enable fast lock; Do not connect Power supply sense; Vcc or do not connect
G52271-0, Rev. 1.14
2/23/00
(c) VITESSE SEMICONDUCTOR CORPORATION 741 Calle Plano, Camarillo, CA 93012 * 805/388-3700 * FAX: 805/987-5896
Page 17
VITESSE
SEMICONDUCTOR CORPORATION
2.488 Gb/s Quad Data Re-timer
Target Specification
VSC8124
100 TQFP Package Drawings
Package Information
Key
A A1 A2 D D1 E E1 L e b q R R1
mm
1.6 0.15 1.4 16.00 14.00 16.00 14.00 .60 .50 .22 0-7 .20 .20
Tolerance
MAX MAX .05 .20 .05 .20 .05 +.15/-.10 BASIC .05 TYP TYP
NOTES: (1) Drawings not to scale. (2) All units in millimeters unless otherwise noted Package #: 101-318-3 Issue #: 1
Page 18
(c) VITESSE SEMICONDUCTOR CORPORATION 741 Calle Plano, Camarillo, CA 93012 * 805/388-3700 * FAX: 805/987-5896
G52271-0, Rev. 1.14
2/23/00
VITESSE
SEMICONDUCTOR CORPORATION
Target Specification
VSC8124
Ordering Information
2.488 Gb/s Quad Data Re-timer
The order number for this product is formed by a combination of the device number, and package type.
VSC8124
Device Type VSC8124: 2.488Gb/s Quad Re-timer
RE
Package RE: 100 TQFP, 14x14mm Body
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 specifications 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 products 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.
G52271-0, Rev. 1.14
2/23/00
(c) VITESSE SEMICONDUCTOR CORPORATION 741 Calle Plano, Camarillo, CA 93012 * 805/388-3700 * FAX: 805/987-5896
Page 19
VITESSE
SEMICONDUCTOR CORPORATION
2.488 Gb/s Quad Data Re-timer
Target Specification
VSC8124
Page 20
(c) VITESSE SEMICONDUCTOR CORPORATION 741 Calle Plano, Camarillo, CA 93012 * 805/388-3700 * FAX: 805/987-5896
G52271-0, Rev. 1.14
2/23/00

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