VITESSE VSC7127R

VITESSE
SEMICONDUCTOR CORPORATION
Data Sheet
Family of Repeater/Retimer and Port
Bypass Circuits for Fibre Channel
VSC7127/VSC7129
Features
• ANSI X3T11 Fibre Channel Compliant
•
Analog/Digital Signal Detect (SDU)
• 1.0625Gb/s Operation
• On-Chip Transmit Termination
• Features the FibreTimer™ Configurable Clock
Recovery Unit (CRU): Repeater, Retimer or
Bypassed
•
3.3V, 700mW Power Dissipation
• Compatible with HDMP-0451 (VSC7127) or
HDMP-0452 (VSC7129)
• Six Port Bypass Circuits (PBC)
• 44-Pin, 10mm PQFP Package
General Description
The VSC7127 and VSC7129 contain six cascaded Port Bypass Circuits (PBCs), the FibreTimer™ configurable Repeater/Retimer (CRU) and a Signal Detect Unit (SDU). These parts are typically used in distributing
Fibre Channel signals to an array of disk drives in an FC-AL loop as illustrated in Figure 1. The first
VSC7127’s CRU is configured as a Repeater to attenuate jitter, the second VSC7127’s CRU is bypassed to
reduce power and the third VSC7127’s CRU is configured as a retimer so that the output of the device is a jittercompliance point.
Each PBC is a multiplexer that is controlled by the corresponding SELx line which, if HIGH, selects the
external input or, if LOW, selects the output of the previous PBC. For the VSC712xR, when MODE is LOW
and SEL5 is HIGH, the CRU is a sophisticated repeater which has low latency, no peaking and attenuates jitter
even at low frequencies. When MODE is HIGH and SEL5 is HIGH, the CRU is a retimer which eliminates jitter transfer but has increased latency due to an elasticity buffer which adds/drops Fibre Channel fill words in
order to accomodate the difference between the baud rate of the incoming data and the local REFCLK. When
SEL5 is LOW, the CRU is bypassed and powered down. The SDU monitors the analog levels of the IO+/- input
and monitors the output of the CRU digitally to indicate whether valid data is present.
The VSC7127/VSC7129 are similar to the VSC7124 which does not contain the FibreTimer™ cell or CMU.
REFCLK
106.25MHz
O0+
O0I0+
I0SEL0
O4+
O4I4+
I4SEL4
O3+
O3I3+
I3SEL3
O2+
O2I2+
I2SEL2
O1+
O1I1+
I1SEL1
VSC7127/VSC7129 Block Diagram
CMU
1
0.1uF
1
0
PBC1
SEL5
1
1
0
PBC2
0
PBC3
1
1
0
0
PBC4
PBC0
0
PBC5
CRU
MODE
SDU
G52298-0, Rev 4.3
05/01/01
© VITESSE SEMICONDUCTOR CORPORATION • 741 Calle Plano • Camarillo, CA 93012
Tel: (800) VITESSE • FAX: (805) 987-5896 • Email: [email protected]
Internet: www.vitesse.com
SIGDET
Page 1
VITESSE
SEMICONDUCTOR CORPORATION
Data Sheet
Family of Repeater/Retimer and Port
Bypass Circuits for Fibre Channel
VSC7127/VSC7129
Application: Fibre Channel Disk Arrays
A 12-port JBOD is shown in Figure 1. This dual loop application uses 3 VSC7127Xs on each loop in order
to configure the FC-AL disk array. Functional drives are included in the FC-AL loop while non-functional or
missing drives (numbers 2, 7, 9) are excluded.
Figure 1: 12-Drive FC-AL JBOD Application
Retimer
1
LOOP A
7127T #5 & 6: Retimer Mode
SEL1=1, SEL5=1
MODE=1
0
1
0
1
0
1
0
4
VSC7127T #6
VSC7127T #5
1
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
3
2
0
0
1
0
1
0
1
0
1
4
3
VSC7127R #4
7127R #3 & 4: Bypass Mode
SEL5=0
MODE=x, No REFCLK
0
0
7125
SerDes
7125
SerDes
1
2
7125
SerDes
7125
SerDes
7125
SerDes
7125
SerDes
3
7125
SerDes
7125
SerDes
7125
SerDes
7125
SerDes
5
4
1
VSC7127 R#3
CONFIGURATION:
7127R #1 & 2: Repeater Mode
SEL0=1, SEL5=1
MODE=0
Retimer
VSC7121 QUAD PORT BYPASS CIRCUIT
Optics
or
Copper
6
7
2
1
7125
SerDes
7125
SerDes
8
0
LOOP B
0
1
0
1
0
1
0
1
Repeater
9
4
3
2
VSC7127R #2
Optics
or
Copper
VSC7127R #1
0
1
7125
SerDes
7125
SerDes
7125
SerDes
7125
SerDes
7125
SerDes
7125
SerDes
10
11
12
Repeater
0
Page 2
© VITESSE SEMICONDUCTOR CORPORATION • 741 Calle Plano • Camarillo, CA 93012
Tel: (800) VITESSE • FAX: (805) 987-5896 • Email: [email protected]
Internet: www.vitesse.com
G52298-0, Rev 4.3
05/01/01
VITESSE
SEMICONDUCTOR CORPORATION
Data Sheet
VSC7127/VSC7129
Family of Repeater/Retimer and Port
Bypass Circuits for Fibre Channel
Functionality
Device Configurations
Four devices are specified in this datasheet: VSC7127R, VSC7127T, VSC7129R and VSC7129T. The
VSC7127 is pin-compatible to the HDMP-0451. The VSC7129 is pin compatible with the HDMP-0452. The
VSC712xR is configured as a Repeater when pin 12, MODE, is LOW, or a Retimer when HIGH. The
VSC712xT is configured as a Retimer when pin 12, MODE, is LOW, or a Repeater when HIGH.
Port Bypass Circuits
The VSC712x contains six Port Bypass Circuits (PBCs) which are 2-to-1 multiplexers used to steer serial
signals. Each PBC, PBCx has a single select line, SELx, which when HIGH, selects the external input, Ix, to
PBCx and when LOW, selects the output of the previous PBC. PCB5 does not have an external input but selects
between the output of the CRU (when SEL5 is HIGH) and the output of PBC0 (when SEL5 is LOW). These
controls allow FC-AL loops to include a functional device on the loop or exclude a non-functional device from
the loop.
FibreTimer™ Clock Recovery Unit—Repeater Mode
The Clock Recovery Unit (CRU) is a digital PLL which extracts the clock from the incoming data and samples the data with the extracted clock. In repeater mode, the output of the CRU is synchronized to the recovered
clock and has improved signal quality due to amplification of the signal and attenuation of jitter. Latency
through the device is quite low, just a few bit times. Multiple repeaters can be cascaded without accumulation
of jitter. MODE determines whether the CRU is a Repeater or a Retimer.
FibreTimer™ Clock Recovery Unit —Retimer Mode
MODE may configure the CRU as a retimer where the recovered data is placed into an elasticity buffer.
Data is taken out of the elasticity buffer and retransmitted synchronously to the local REFCLK. For Fibre Channel data, Fill words will be added and dropped in the elasticity buffer in order to accomodate the differences in
speed between the incoming data and the REFCLK. The retimer does not transfer jitter from the input to the
output but has longer latency, up to 4 word times, through the device.
FibreTimer™ Clock Recovery Unit—Bypass Mode
When SEL5 is LOW, PBC5 selects the output of PBC0 and the CRU is unused. In this mode, the CRU is
powered down to reduce power dissipation. If the part will be used only in this mode, REFCLK and MODE are
ignored and can be left open. If the CRU is bypassed, the Signal Detect Unit is disabled and the output is LOW.
Signal Detection
A signal detect unit (SDU) monitors IO+/- and the output of the CRU to determine if there is a valid Fibre
Channel signal present. The SIGDET is updated every 160 bits (an “interval”) with the previous interval’s status
of three different Signal Detect Units: analog signal amplitude (ASDU), run length check (RLLSDU), Ordered
Set density (OSSDU). If the input amplitude is less than 200mV (differential), ASDU will be set LOW. If the
input amplitude is greater than 400mV, ASDU will be asserted HIGH. If a run length violation occurs (more
than 5 consecutive ones or zeros), the RLLSDU will be set LOW and stay LOW until the occurrence of a valid
G52298-0, Rev 4.3
05/01/01
© VITESSE SEMICONDUCTOR CORPORATION • 741 Calle Plano • Camarillo, CA 93012
Tel: (800) VITESSE • FAX: (805) 987-5896 • Email: [email protected]
Internet: www.vitesse.com
Page 3
VITESSE
SEMICONDUCTOR CORPORATION
Data Sheet
Family of Repeater/Retimer and Port
Bypass Circuits for Fibre Channel
VSC7127/VSC7129
Fill Word or Primitive Sequence. Any Fill Word or Primitive Sequence will reset the OSSDU counter which
will increment on any 160-bit sequence which is not a Fill Word or Primitive Sequence. If the counter reaches
256, a Fill Word or Primitive Sequence has not occured often enough so OSSDU is asserted until reset again.
SIGDET is just an or’ing of these three state machines resynchronized to the 160-bit interval clock.
If SEL5 is LOW or REFCLK is absent, the signal detect unit is disabled and SIGDET is LOW.
Application Example
Figure 2 shows one loop of an 8-drive JBOD implemented with two VSC712xs per loop. The input from
the connector goes through a repeater in order to clean up the signal prior to the array of disk drives. After all
eight PBCs, the output the to connector is retimed to ensure jitter compliance at the connector.
Figure 2: 8-Drive JBOD
Drive 3
O2
I2
SEL2
O3
Drive 6
Drive 5
O2
I3
I2
0
0
RPTR
SEL4
RTMR
O0
I0
0
0
1
SEL0
1
1
1
SEL4
I4
1
Drive 1
MODE=1
SEL1=1
O1
1 MODE
SEL3
O4
I1
0
1 SEL0
1
0
MODE
I3
1
I4
1
SEL1
0
MODE=0
SEL0=1
O1
0
1
0
O4
I1
O3
0
SEL3
Drive 4
0
SEL1
SEL2
1
1
Drive 7
Drive 2
O0
I0
Drive 8
NOT SHOWN: PBC5, SEL5
Page 4
Connector
© VITESSE SEMICONDUCTOR CORPORATION • 741 Calle Plano • Camarillo, CA 93012
Tel: (800) VITESSE • FAX: (805) 987-5896 • Email: [email protected]
Internet: www.vitesse.com
G52298-0, Rev 4.3
05/01/01
VITESSE
SEMICONDUCTOR CORPORATION
Data Sheet
Family of Repeater/Retimer and Port
Bypass Circuits for Fibre Channel
VSC7127/VSC7129
AC Characteristics (Over Recommended Operating Conditions)
Figure 3: Timing Waveforms
Ix+/-
Ox+/T1
T1
Table 1: AC Characteristics (Over recommended operating conditions)
Parameters
Description
Min
Typ
Max
Units
Conditions
T1
Propagation delay (Repeater mode)
7.0
ns
Delay with all circuits bypassed.
T1
Propagation delay (Retimer mode)
180
ns
Delay with all circuits bypassed.
Typical delay is 100 bit times.
TR, TF
Serial data rise and fall time
300
ps
At ∆VIN minimum levels
Tj(PBC)
Data jitter accumulation
(PBC only)
120
ps
Peak-to-peak on Ox+/- in Port
Bypass Circuit Mode.
TJ(RPTR)
Total data output jitter
(Repeater mode)
192
ps
Jitter generation at Ox+/- when
driven by the CRU in Repeater
Mode. IEEE 802.3z Clause 38.68
TDJ(RPTR)
Serial data output deterministic jitter
(p-p) (Repeater mode)
80
ps
Jitter generation at Ox+/- when
driven by the CRU in Repeater
Mode. IEEE 802.3z Clause 38.68
TJ(RTMR)
Total data output jitter
(Retimer Mode)(1)
192
ps
Jitter generation at Ox+/- when
driven by the CRU in Retimer
Mode.
TDJ(RTMR)
Serial data output deterministic jitter
(p-p) (Retimer Mode)(1)
80
ps
Jitter generation at Ox+/- when
driven by the CRU in Retimer
Mode.
TJTOL
Jitter tolerance
UI
Minimum eye opening for proper
operation as defined in MJS 8.0.
0.24
NOTE: (1) Retimer mode is only available for Fibre Channel applications.
G52298-0, Rev 4.3
05/01/01
© VITESSE SEMICONDUCTOR CORPORATION • 741 Calle Plano • Camarillo, CA 93012
Tel: (800) VITESSE • FAX: (805) 987-5896 • Email: [email protected]
Internet: www.vitesse.com
Page 5
VITESSE
SEMICONDUCTOR CORPORATION
Data Sheet
Family of Repeater/Retimer and Port
Bypass Circuits for Fibre Channel
VSC7127/VSC7129
Figure 4: REFCLK Timing Waveforms *
VIH(MIN)
REFCLK
VIL(MAX)
NOTE: A reference clock must be provided to the REFCLK pin in order for the chip to power up in the right state.
Table 2: Reference Clock Requirements
Parameters
Description
Min
Typ
Max
Units
Conditions
FR
Frequency Range
105
107
MHz
FO
Frequency Offset
-200
200
ppm
DC
Duty Cycle
35
65
%
Measured at 1.5V
TR, TF
Rise and Fall Time
2.0
ns
Between VIL(MAX) and VIH(MIN)
Maximum frequency offset
between transmit and receive
reference clocks on one link
DC Characteristics (Over recommended operating conditions)
Parameters
Description
VOH
Output HIGH voltage (TTL)
Min
Typ
Max
2.4
VOL
Output LOW voltage (TTL)
VIH
Input HIGH voltage (TTL)
2.0
VIL
Input LOW voltage (TTL)
0
IIH
Input HIGH current (TTL)
IIL
Input LOW current (TTL)
∆VOUT75(1)
TX output differential peak-topeak voltage swing
∆VOUT50(1)
Units
Conditions
V
IOH = -1.0mA
0.5
V
IOL = +1.0mA
5.5
V
0.8
V
500
µA
VIN =2.4V
-500
µA
VIN =0.5V
1200
2200
mVp-p
75Ω to VDD – 2.0 V
TX output differential peak-topeak voltage swing
1000
2200
mVp-p
50Ω to VDD – 2.0 V
∆VIN(1)
Receiver differential peak-to-peak
input Sensitivity RX
400
2600
mVp-p
Internally biased to VDD/2
VDD
Supply voltage
3.14
3.47
V
50
3.3V±5%
PD
Power dissipation
707
902
mW
Outputs open, VDD = VDD max.
±2%
IDD
Current (all supplies)
215
260
mA
Outputs open, VDD = VDD max
IDDA
Current (VDDA)
50
70
mA
VDDA = VDD max
NOTE: (1) Refer to Application Note AN-37 for details regarding differential voltage measurements.
Page 6
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Tel: (800) VITESSE • FAX: (805) 987-5896 • Email: [email protected]
Internet: www.vitesse.com
G52298-0, Rev 4.3
05/01/01
VITESSE
SEMICONDUCTOR CORPORATION
Data Sheet
VSC7127/VSC7129
Family of Repeater/Retimer and Port
Bypass Circuits for Fibre Channel
Absolute Maximum Ratings (1)
TTL Power Supply Voltage (VDD)...................................................................................................... 0.5V to +4V
PECL DC Input Voltage (VINP) ............................................................................................. -0.5V to VDD +0.5V
TTL DC Input Voltage (VINT)........................................................................................................... -0.5V to 5.5V
DC Voltage Applied to Outputs for High Output State (VIN TTL) ........................................ -0.5V to VDD + 0.5V
TTL Output Current (IOUT), (DC, output high) .......................................................................................... +50mA
PECL Output Current, (IOUT), (DC, output high)........................................................................................ -50mA
Case Temperature Under Bias (TC).............................................................................................. -55oC to +125oC
Storage Temperature (TSTG)........................................................................................................ -65oC to + 150oC
Maximum Input ESD ................................................................................................................................... 1000V
Recommended Operating Conditions(2)
Power Supply Voltage (VDD) ....................................................................................................... +3.14V to 3.47V
Ambient Operating Temperature Range (T)...............................................................0°C Ambient to +95°C Case
NOTES: (1) CAUTION: Stresses listed under “Absolute Maximum Ratings” may be applied to devices one at a time without causing permanent
damage. Functionality at or above the values listed is not implied. Exposure to these values for extended periods may affect device reliability.
(2) Vitesse guarantees the functional and parametric operation of the part under “Recommended Operating Conditions” except where
specifically noted in the AC and DC Parametric tables.
G52298-0, Rev 4.3
05/01/01
© VITESSE SEMICONDUCTOR CORPORATION • 741 Calle Plano • Camarillo, CA 93012
Tel: (800) VITESSE • FAX: (805) 987-5896 • Email: [email protected]
Internet: www.vitesse.com
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VITESSE
SEMICONDUCTOR CORPORATION
Data Sheet
Family of Repeater/Retimer and Port
Bypass Circuits for Fibre Channel
VSC7127/VSC7129
Package Pin Descriptions
43
VSS
41
39
37
35
I3-
I3+
VDDP3
O3-
O3+
VSS
I2-
I2+
VDDP2
O2-
O2+
Figure 5: Pin Diagram
33
1
VSS
VDDA
VDD
I1-
31
3
O4+
O4-
I1+
VDDP1
29
5
VSC7127
VSC7129
O1O1+
7
VDDP4
I4+
27
I4VDDP0
VSS
I0-
25
9
O0O0+
I0+
11
PIN23*
PIN22*
PIN21*
21
PIN20*
PIN 19*
SEL3
19
SEL4
17
SEL2
SEL1
SEL0
15
REFCLK
13
MODE
VSS
23
* See Tables 3 and 4 for Pin Differences and Description
Table 3: VSC7124/VSC7127/VSC7129 Pin Differences
Pin 12
Pin 13
Pin 32
Pin 19
Pin 20
Pin 21
Pin 22
Pin 23
Comment
VSC7124
N/C
N/C
VDD
VSS
N/C
VDD
N/C
N/C
Provided for reference only(1)
VSC7127
MODE
REFCLK
VDDA
VSS
SIGDET
VDD
SEL5
TRST
Compatible with HDMP-0451
VSC7129
MODE
REFCLK
VDDA
SIGDET
VDD
SEL5
TRST
VSS
Compatible with HDMP-0452
NOTE: (1) The VSC7124 is a 5 PBC device similar to the VSC7127/VSC7129 without the FibreTimer™ Repeater/Retimer functionality.
Page 8
© VITESSE SEMICONDUCTOR CORPORATION • 741 Calle Plano • Camarillo, CA 93012
Tel: (800) VITESSE • FAX: (805) 987-5896 • Email: [email protected]
Internet: www.vitesse.com
G52298-0, Rev 4.3
05/01/01
VITESSE
SEMICONDUCTOR CORPORATION
Data Sheet
Family of Repeater/Retimer and Port
Bypass Circuits for Fibre Channel
VSC7127/VSC7129
Table 4: Pin Identification
Pin #
Name
4, 3
41, 40
35, 34
28, 27
10, 9
I1+, I1I2+, I2I3+, I3I4+, I4I0+, I 0-
15, 16,
17, 18
14, 22
SEL1, SEL2
SEL3, SEL4
SEL0, SEL5
7, 6
44, 43
38, 37
31, 30
24, 25
O1+, O1O2+, O2O3+, O3O4+, O4O0+, O0-
OUTPUT - Differential
O1+/O1- is the serial output from
O2+/O2- is the serial output from
O3+/O3- is the serial output from
O4+/O4- is the serial output from
O0+/O0- is the serial output from
REFCLK
INPUT - TTL
106.25MHz REFerence CLocK for the internal Clock Multiplier PLL.
NOTE: A reference clock must be provided to the REFCLK pin in order for
the chip to power up in the right state
13
Description
INPUT - Differential, internally biased to VDD/2.
I1+/I1- is the serial input to PBC1.
I2+/I2- is the serial input to PBC2.
I3+/I3- is the serial input to PBC3.
I4+/I4- is the serial input to PBC4.
I0+/I0- is the serial input to PBC0.
INPUT - TTL.
Port Bypass MUX SELect lines. A HIGH selects Ix. A LOW selects the
output of the previous internal device.
MUX1.
PBC port 1.
PBC port 2.
PBC port 3.
PBC port 4.
INPUT - TTL
(NOTE: Different for VSC7127T or VSC7127R)
In the VSC7127T, MODE configures the part as a Retimer if LOW or a
Repeater if HIGH. In the VSC7127R, MODE configures the parts as a
Repeater if LOW or a Retimer if HIGH. If unused, tie HIGH or LOW.
12
MODE
20 (VSC7127)
19 (VSC7129
SIGDET
23 (VSC7127)
22 (VSC7129)
TRST
INPUT - TTL:
(Internal Pull-up Resistor)
Test mode input. Pull HIGH or leave open for normal operation.
2
21 (VSC7127)
20 (VSC7129)
VDD
Digital Logic Power Supply
5
42
36
29
26
VDDP1
VDDP2
VDDP3
VDDP4
VDDP0
Power Supply (3.3V) for O1+/-. If unused, connect to VSS.
Power Supply (3.3V) for O2+/-. If unused, connect to VSS.
Power Supply (3.3V) for O3+/-. If unused, connect to VSS.
Power Supply (3.3V) for O4+/-. If unused, connect to VSS.
Power Supply (3.3V) for O0+/-. If unused, connect to VSS
32
VDDA
Analog Power Supply
1, 8, 11, 33, 39
19 (VSC7127)
23 (VSC7129)
VSS
G52298-0, Rev 4.3
05/01/01
OUTPUT - TTL:
SIGnal DETect output
Ground
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Internet: www.vitesse.com
Page 9
VITESSE
SEMICONDUCTOR CORPORATION
Data Sheet
Family of Repeater/Retimer and Port
Bypass Circuits for Fibre Channel
VSC7127/VSC7129
Package Information
44-Pin PQFP 10 x 10 mm
F
G
44
Item
mm
Tol.
A
2.45
MAX
D
2.00
+0.10
E
0.35
+.05
F
13.20
+.25
G
10.00
+.10
H
13.20
+.25
34
1
33
I
H
I
10.00
+.10
J
0.88
+.15 / -.10
K
0.80
BASIC
23
11
12
22
12o TYP
D
12o TYP
K
0.30 RAD. TYP.
A
0.25 MAX.
0.20 RAD. TYP.
0.17 MAX.
0.25
NOTES:
Drawing not to scale.
Cavity up
All units in mm unless otherwise noted.
Page 10
0o- 8o
0.102 MAX. LEAD
COPLANARITY
J1
E
J
© VITESSE SEMICONDUCTOR CORPORATION • 741 Calle Plano • Camarillo, CA 93012
Tel: (800) VITESSE • FAX: (805) 987-5896 • Email: [email protected]
Internet: www.vitesse.com
G52298-0, Rev 4.3
05/01/01
VITESSE
SEMICONDUCTOR CORPORATION
Data Sheet
Family of Repeater/Retimer and Port
Bypass Circuits for Fibre Channel
VSC7127/VSC7129
Package Thermal Characteristics
The VSC7127/VSC7129 is packaged in a standard plastic quad flatpack, PQFP, with an embedded, but
unexposed thermal heatslug. This package adheres to industry-standard EIAJ footprints for a 10 mm body, 44
lead PQFP. The package construction is as shown in Figure 6. The 44 PQFP with embedded slug has the thermal
properties shown in Figure 6.
Figure 6: Package Cross Section—10 mm package
Copper Heat Spreader
Plastic Molding Compound
Lead
Bond Wire
Die
Table 5: 44 PQFP Thermal Resistance
Symbol
Description
Value
Units
θCA-0
Thermal resistance from case-to-ambient, still air
50
o
C/W
θCA-100
Thermal resistance from case-to-ambient, 100 LFPM air
43
o
C/W
C/W
θCA-200
Thermal resistance from case-to-ambient, 200 LFPM air
39
o
θCA-400
Thermal resistance from case-to-ambient, 400 LFPM air
36
o
C/W
34
o
C/W
θCA-600
Thermal resistance from case-to-ambient, 600 LFPM air
The VSC7127/VSC7129 is designed to operate with a case temperature up to 95oC. The user must guarantee that the case temperature specification is not violated. With the thermal resistances shown in Table 5, the
10mm PQFP can operate in still air ambient temperatures of 50oC [50oC = 95oC - 0.9W * 50]. If the ambient air
temperature exceeds these limits, some form of cooling through a heatsink or an increase in airflow must be provided.
Moisture Sensitivity Level
This device is rated at a Moisture Sensitivity Level 3 rating with maximum floor life of 168 hours at 30ºC,
60% relative humidity. Please refer to Application Note AN-20 for appropriate handling procedures.
G52298-0, Rev 4.3
05/01/01
© VITESSE SEMICONDUCTOR CORPORATION • 741 Calle Plano • Camarillo, CA 93012
Tel: (800) VITESSE • FAX: (805) 987-5896 • Email: [email protected]
Internet: www.vitesse.com
Page 11
VITESSE
SEMICONDUCTOR CORPORATION
Data Sheet
Family of Repeater/Retimer and Port
Bypass Circuits for Fibre Channel
VSC7127/VSC7129
Ordering Information
The order number for this product is formed by a combination of the device number and package type.
VSC712XX XX
Device Type
VSC7127T Configured as a Retimer when MODE is HIGH. HDMP-0451 compatible
VSC7127R Configured as a Repeater when MODE is LOW. HDMP-0451 compatible
VSC7129T Configured as a Retimer when MODE is HIGH. HDMP-0452 compatible
VSC7129R Configured as a Repeater when MODE is LOW. HDMP-0452 compatible
Package Type
QM: 44-pin PQFP, 10mm Body
Marking Information
The package is marked with three lines of text as shown in Figure 7 (VSC7127TQM shown).
Figure 7: Package Marking Information
Pin 1 Identifier
VITESSE
VSC7127T QM
Part Number
DateCode
####AAAAA
Package Suffix
Lot Tracking Code
(4 or 5 characters)
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.
Page 12
© VITESSE SEMICONDUCTOR CORPORATION • 741 Calle Plano • Camarillo, CA 93012
Tel: (800) VITESSE • FAX: (805) 987-5896 • Email: [email protected]
Internet: www.vitesse.com
G52298-0, Rev 4.3
05/01/01