PERICOM PI6CV304L

PI6CV304 / PI6CV2304
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160 MHz Clock Buffers
Features
Description
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Pericom’s PI6CV304 and PI6CV2304 are low-skew, low- noise, highspeed clock buffers and are ideal for computing, networking, and
communication applications. Application examples include PCI(X)
clock buffers in servers and workstations, PCI(X) Storage Area
Network (SAN), and RAID controllers. They are used for networking
and communications applications requiring 80 MHz for 10/100 Mbps
Ethernet and 125 MHz for Gigabit networking clocks.
160 MHz operation
Low noise, low skew: 150ps max
Fast rise/fall time: 1.0ns typ.
Fast propagation delay: 2.0ns typ.
5V I/O tolerant input
Industrial temperature (–40°C to 85°C)
3.3V power supply
Packaging (Pb-free & Green available)
– 8-pin TSSOP (L)
– 8-pin SOIC (W)
To reduce EMI emission and power consumption, all outputs can be
disabled to 3-state by asserting a low signal to the OE (Output
Enable) pin.
PI6CV2304 output impedance is 30-ohms. PI6CV304 output impedance is 20-ohms.
Function Table
Applications
Inputs
• 33 MHz PCI-to-133 MHz PCIX controllers
• 80 MHz for 10/100 Mbps Ethernet
• 125 MHz for Gigabit networking
• 155 MHz for Optical OC3/SDH/SONET
Block Diagram
Output
CLK_IN
OE
Y[0:3]
X
L
H
L
H
H
Z
L
H
Pin Configuration
Y0
Y1
CLK_IN
1
8
Y3
OE
2
7
Y2
Y0
3
6
VDD
GND
4
5
Y1
Y2
OE
CLK_IN
Y3
1
PS8537D
09/14/043
PI6CV304 / PI6CV2304
160
MHz Clock Buffers
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Pin Description
Pin #
Symbol
Type
Qty
De s cription
1
CLK_IN
Input
1
5V Tolerant clock input
2
OE
Input
1
Active High Output Enable. Y[0- 3] outputs will be 3- stated when OE is low
3,5,7,8
Y[0- 3]
Output
4
LVCMOS level outputs
4
GND
Ground
1
Ground
6
VDD
Power
1
3.3V power
Absolute Maximum Ratings (Above which the useful life may be impaired. For user guidlines, not tested)
Supply Voltage (VDD)
–0.0V to +5.0V
Input Voltage
–0.5V to VDD+0.5V
Industrial Operating Temperature
–40°C to +85°C
Storage Temperature
–65°C to +150°C
Junction Temperature
150°C
Input ESD MIL- 883, method 3015, human body model
2K V
Operating Conditions
Symbol
De s cription
M in
M ax
Unit
VDD
I/O Supply, Analog Core Supply
3.0
3.6
V
TA
Industrial Ambient Temperature
–40
+85
°C
2
PS8537D
09/14/043
PI6CV304 / PI6CV2304
160
MHz Clock Buffers
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PI6CV304 DC Characteristics Over Operating Conditions
Symbol
Parame te r
VIL
Low Input Voltage
VIH
High Input Voltage
IIL
Low Input Current
VIN = 0V
–5
IIH
High Input Current
VIN = VC C
5
VO L
Low Output Voltage
VC C = 3.0V, IO L = 12mA
0.4
VO H
High Output Voltage
VC C = 3.0V, IO H = –12mA
CO
Output Capacitance
7
CI
Input Capacitance
5
Supply Current
IDD
ZO
Output Impedance
L
Pin Inductance
Conditions
M in
Typ.
M ax
Units
0.8
V
2.0
µA
V
2.4
CL = 33pF/33MHz
20
CL = 33pF/66MHz
40
CL = 22pF/80MHz
35
CL = 15pF/100MHz
32
CL = 10pF/125MHz
28
CL = 10pF/155MHz
41
pF
mA
Ω
20
7
nH
PI6CV304 AC Characteristics (TA = –40~85°C,VCC = 3.3V ±0.3V, 33pF/66MHz and 10pF/160MHz)
Symbol
fIN
Parame te r
Conditions
Input frequency
M in.
Typ.
M ax.
Units
0
16 0
MHz
tP LH
Low- to- high propagation delay
CLK_IN to Y[0- 3] rising edges @ 1.5V
1.0
3.0
tP HL
High- to- low propagation delay
CLK_IN to Y[0- 3] falling edges @ 1.5V
1.0
3.0
tS K (O )
Output skew(2)
@ 1.5V
100
tS K (P )
Pulse skew
@ 1.5V
300
@ 1.5V
500
0.8V~2.0V
1.2
tS K (T)
Package skew
tR,tF
Rise, Fall time
(1 )
tP ZL,tP ZH
Output enable time
5
tP LZ,tP HZ
Output disable time
10
tDC
Output Duty Cycle
tDC = tH/tC Y, tH = High Pulse Width,
tC Y = Output Cycle Time, @ 1.5V
45
55
ns
ps
ns
%
Note:
1. Identical traces, loads, power supply.
2. Maximum Output Skew is 100ps when frequency is below 125MHz with 10pF loading.
3
PS8537D
09/14/043
PI6CV304 / PI6CV2304
160
MHz Clock Buffers
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PI6CV2304 DC Characteristics Over Operating Conditions
Symbol
Parame te r
Conditions
M in.
Typ.
M ax.
VIL
Low Input Voltage
VIH
High Input Voltage
IIL
Low Input Current
VIN = 0V
–5 0
IIH
High Input Current
VIN = VCC
200
VOL
Low Output Voltage
VCC = 3.0V, IOL= 8 mA
0.4
VOH
High Output Voltage
VCC = 3.0V, IOH = - 8mA
IDD
Supply Current
0.8
2.0
2.4
CL = 33pF/33MHz
20
CL = 33pF/66MHz
41
CL = 22pF/80MHz
35
CL = 15pF/100MHz
34
CL = 10pF/125MHz
31
Units
V
µA
V
mA
CO
Output Capacitance
7
CI
Input Capacitance
5
ZO
Output Impedance
L
Pin Inductance
pF
Ω
30
7
nH
PI6CV2304 AC Characteristics (TA = –40~85°C, VCC = 3.3V ±0.3V, 33pF/66MHz and 10pF/133MHz)
Symbol
fIN
Parame te r
Conditions
Input frequency
M in.
Typ.
M ax.
Units
0
133
MHz
tP LH
Low- to- high propagation delay
CLK_IN to Y[0- 3] rising edges @ 1.5V
1. 0
3.0
tP HL
High- to- low propagation delay
CLK_IN to Y[0- 3] falling edges @ 1.5V
1. 0
3.0
tS K (O )
Output skew
@ 1. 5 V
15 0
tS K (P )
Pulse skew
@ 1. 5 V
300
@ 1.5V
500
0.8V~2.0V
1.35
tS K (T)
Package skew
tR,tF
Rise, Fall time
(1 )
tP ZL,tP ZH
Output enable time
5
tP LZ,tP HZ
Output disable time
10
tDC
Output duty cycle
tDC = tH/tC Y, tH = High Pulse Width,
tC Y = Output Cycle Time, @ 1.5V
45
55
ns
ps
ns
%
Note: 1. Identical traces, loads, power supply.
4
PS8537D
09/14/043
PI6CV304 / PI6CV2304
160
MHz Clock Buffers
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High-Level Output Voltage
vs. High-Level Output Current
Rise/Fall Time
Voh
VCC = 3.0V
TA = 25˚C
2.0V
2.0V
tr
Voh - V
0.8V
0.8V
Vol
tf
Note:
For test circuit: RS = 0 for PI6CV2304, RS = 15 ohms for PI6CV304
CL = 10, 15, 22, or 33pF, depending on frequency.
3.5
3
2.5
2
1.5
1
0.5
0
–100
–80
PI6CV304
PI6CV2304
–60
–40
–20
0
Ioh - mA
Vol - V
Low-Level Output Voltage
vs. Low-Level Output Current
3.5
3
2.5
2
1.5
1
0.5
0
VCC = 3.0V
TA = 25˚C
0
20
PI6CV304
PI6CV2304
40
60
80
100
Ioh - mA
5
PS8537D
09/14/043
PI6CV304 / PI6CV2304
160
MHz Clock Buffers
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Switching Waveforms
Propagation Delay
Pulse Skew – tSK(p)
3V
CLK_IN
3V
CLK_IN
1.5V
tPHL
tPLH
0V
VOH
VOH
1.5V
Any Y
0.8V
tR
tF
0V
tPHL
tPLH
2.0V
Y0 - Y3
1.5V
1.5V
VOL
VOL
Output Skew – tSK(o)
Package Skew – tSK(t)
3V
CLK_IN
3V
1.5V
tPLHx
CLK_IN
0V
tPHLx
VOH
Any Y
tSK(o)
VOH
Package 1
Any Y
VOL
1.5V
tSK(t)
VOH
Any Y
1.5V
tPLHy
tPHLy
0V
tPHL1
tPLH1
1.5V
tSK(o)
1.5V
tSK(t)
VOH
Package 2
Any Y
VOL
VOL
1.5V
tPLH2
tPHL2
VOL
Output Duty Cycle – tDC
tH
–1.5V
Any Y
tCY
6
PS8537D
09/14/043
PI6CV304 / PI6CV2304
160
MHz Clock Buffers
12345678901234567890123456789012123456789012345678901234567890121234567890123456789012345678901212345678901234567890123456789012123456789012
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Packaging Mechanical: 8-Pin TSSOP (L)
Packaging Mechanical: 8-Pin SOIC (W)
8
.149
.157
3.78
3.99
.0099
.0196
1
.189
.196
.016
.026
0.406
0.660
0.25
x 45˚
0.50
.0075
.0098
0-8˚
4.80
5.00
0.19
0.25
0.40 .016
1.27 .050
.053
.068
.2284
.2440
5.80
6.20
1.35
1.75
SEATING PLANE
REF
.050
BSC
1.27
.0040 0.10
.0098 0.25
.013 0.330
.020 0.508
X.XX DENOTES DIMENSIONS
X.XX IN MILLIMETERS
7
PS8537D
09/14/043
PI6CV304 / PI6CV2304
160
MHz Clock Buffers
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Ordering Information
Ordering Code
PI6CV304L
PI6CV304LE
PI6CV304W
PI6CV304WE
PI6CV2304L
PI6CV2304LE
PI6CV2304W
PI6CV2304WE
Package Code
L
L
W
W
L
L
W
W
Package Type
8-pin 173-mil wide TSSOP
Pb-free & Green, 8-pin 173-mil wide TSSOP
8-pin 150-mil wide SOIC
Pb-free & Green, 8-pin 150-mil wide SOIC
8-pin 173-mil wide TSSOP
Pb-free & Green, 8-pin 173-mil wide TSSOP
8-pin 150-mil wide SOIC
Pb-free & Green, 8-pin 150-mil wide SOIC
Notes:
1. Thermal characteristics can be found on the company web site at www.pericom.com/packaging/
Pericom Semiconductor Corporation • 1-800-435-2336 • www.pericom.com
8
PS8537D
09/14/043