Diodes Incorporated 的 PI6CV304, PI6CV2304 规格书

_I__I__I__I_ _I__I__I__I_ IDPER/cam
1PS8537F 09/16/09
Y3
Y2
VDD
Y1
CLK_IN
OE
Y0
GND
1
2
3
4
8
7
6
5
PI6CV304 / PI6CV2304
Description
Pericom’s PI6CV304 and PI6CV2304 are low-skew, low- noise, high-
speed 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.
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 imped-
ance is 20-ohms.
Features
140MHz operation (PI6CV2304)
160 MHz operation (PI6CV304)
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)
Pin Configuration
160 MHz Clock Buffers
Block Diagram
Applications
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
Y0
Y3
Y2
Y1
OE
CLK_IN
stupnItuptuO
NI_KLCEO]3:0[Y
X
L
H
L
H
H
Z
L
H
Function Table
09-0040
09-0040
PI6CV304 / PI6CV2304
160 MHz Clock Buffers
2PS8537F 09/14/09
#niPlobmySepyTytQnoitpircseD
1NI_KLCtupnI1 tupnikcolctnareloTV5
2EOtupnI1 wolsiEOnehwdetats-3eblliwstuptuo]3-0[Y.elbanEtuptuOhgiHevitcA
8,7,5,3]3-0[YtuptuO4 stu
ptuolevelSOMCVL
4DNGdnuorG1dnuorG
6V
DD
rewoP1 rewopV3.3
Pin Description
Absolute Maximum Ratings (Above which the useful life may be impaired. For user guidlines, not tested)
V(egatloVylppuS
DD
)V0.5+otV0.0
egatloVtupnI VotV5.0
DD
V5.0+
erutarepmeTgnitarepOlairtsudnI C°58+otC°04
erutarepmeTegarotS C°051+otC°56
erutarepmeTnoitcnuJC°051
ledomydobnamuh,5103dohtem,388-LIMDSEtupnIVK2
lobmySnoitpircseDniMxaMtinU
V
DD
ylppuSeroCgolanA,ylppuSO/I0.36.3V
T
A
erutarepmeTtneibmAlairtsudnI04–58+C°
Operating Conditions
09-0040
09-0040
PI6CV304 / PI6CV2304
160 MHz Clock Buffers
3PS8537F 09/14/09
PI6CV304 DC Characteristics Over Operating Conditions
lobmySretemaraPsnoitidnoCniM.pyTxaMstinU
V
LI
egatloVtupnIwoL 8.0 V
V
HI
egatloVtupnIhgiH0.2
I
LI
tnerruCtupnIwoLV
NI
V0=5μA
I
HI
tnerruCtupnIhgiHV
NI
V=
DD
5
V
LO
egatloVtuptuOwoLV
DD
I,V0.3=
LO
Am21=4.0 V
V
HO
egatloVtuptuOhgiHV
DD
I,V0.3=
HO
Am21=4.2
C
O
ecnaticapaCtuptuO 7 Fp
ICecnaticapaCtupnI 5
I
DD
tnerruCylppuS
C
L
zHM33/Fp33=02
Am
C
L
zHM66/Fp33=04
C
L
zHM08/Fp22=53
C
L
zHM001/Fp51=23
C
L
zHM521/Fp01=82
C
L
zHM551/Fp01=14
Z
O
ecnadepmItuptuO02Ω
LecnatcudnIniP 7Hn
PI6CV304 AC Characteristics (TA = –40~85°C,VDD = 3.3V ±0.3V, 33pF/66MHz and 10pF/160MHz)
lobmySretemaraPsnoitidnoC.niM.pyT.xaM
s
tinU
f
NI
ycneuqerftupnI 0061zHM
t
HLP
yalednoitagaporphgih-ot-woLV5.1@segdegnisir]3-0[YotNI_KLC0.10.3 sn
t
LHP
yalednoitagaporpwol-ot-hgiHV5.1@segdegnillaf]3-0[YotNI_KLC0.10.3
t
)O(KS
wekstuptuO
)2(
V5.1@001
spt
)P(KS
weksesluPV5.1@003
t
)T(KS
weksegakcaP
)1(
V5.1@005
t
R
t,
F
emitllaF,esiRV0.2~V8.02.1
snt
LZP
t,
HZP
emitelbanetuptuO 5
t
ZLP
t,
ZHP
emitelbasidtuptuO 01
t
CD
elcyCytuDtuptuO t
CD
t=
H
t/
YC
t,
H
,htdiWesluPhgiH=
t
YC
V5.1@,emiTelcyCtuptuO= 5455%
Note:
1. Identical traces, loads, power supply.
2. Maximum Output Skew is 100ps when frequency is below 125MHz with 10pF loading.
09-0040
09-0040
PI6CV304 / PI6CV2304
160 MHz Clock Buffers
4PS8537F 09/14/09
PI6CV2304 DC Characteristics Over Operating Conditions
lobmySretemaraPsnoitidnoC.niM.pyT.xaMstinU
VLI egatloVtupnIwoL 8.0 V
VHI egatloVtupnIhgiH0.2
ILI tnerruCtupnIwoLV
NI V0=05μA
IHI tnerruCtupnIhgiHV
NI V= DD 002
VLO egatloVtuptuOwoLV
DD I,V0.3= LO Am8=4.0 V
VHO egatloVtuptuOhgiHV
DD I,V0.3= HO Am8-=4.2
IDD tnerruCylppuS
CLzHM33/Fp33=02
Am
CLzHM66/Fp33=14
CLzHM08/Fp22=53
CLzHM001/Fp51=43
CLzHM521/Fp01=13
COecnaticapaCtuptuO 7 Fp
CIecnaticapaCtupnI 5
ZOecnadepmItuptuO 03 Ω
LecnatcudnIniP 7Hn
PI6CV2304 AC Characteristics (TA = –40~85°C, VDD = 3.3V ±0.3V, 33pF/66MHz and 10pF/133MHz)
lobmySretemaraPsnoitidnoC.niM.pyT.xaMstinU
f
NI
ycneuqerftupnI 0041zHM
t
HLP
yalednoitagaporphgih-ot-woLV5.1@segdegnisir]3-0[YotNI_KLC0.10.3 sn
t
LHP
yalednoitagaporpwol-ot-hgiHV5.1@segdegnillaf]3-0[YotNI_KLC0.10.3
t
)O(KS
wekstuptuOV5.1@051
spt
)P(KS
weksesluPV5.1@003
t
)T(KS
weksegakcaP
)1(
V5.1@005
t
R
t,
F
emitllaF,esiRV0.2~V8.053.1
snt
LZP
t,
HZP
emitelbanetuptuO 5
t
ZLP
t,
ZHP
emitelbasidtuptuO 01
t
CD
elcycytudtuptuO t
CD
t=
H
t/
YC
t,
H
,htdiWesluPhgiH=
t
YC
V5.1@,emiTelcyCtuptuO= 5455%
Note: 1. Identical traces, loads, power supply.
09-0040
09-0040
PI6CV304 / PI6CV2304
160 MHz Clock Buffers
5PS8537F 09/14/09
Rise/Fall Time
Note:
For test circuit: RS = 0 for PI6CV2304, RS = 15 ohms for PI6CV304
CL = 10, 15, 22, or 33pF, depending on frequency.
V
OH
2.0V
0.8V
V
OL
2.0V
0.8V
trtf
–100 –80 –60
VDD = 3.0V
TA = 25°C
I
oh
- mA
–40 –20
3.5
3
2
2.5
1.5
1
0.5
0
0
PI6CV2304
PI6CV304
V
oh
- V
High-Level Output Voltage
vs. High-Level Output Current
Low-Level Output Voltage
vs. Low-Level Output Current
020
PI6CV2304
40
VDD = 3.0V
TA = 25°C
I
oh
- mA
V
ol
- V
60 80
3.5
3
2
2.5
1.5
1
0.5
0
100
PI6CV304
09-0040
(binge/00M“ \— lSKw): lumrtpm \ J \— _/‘ \_7 __/ \: __/ \: __/ \: 7 C ‘SK = 1m AM or wHL rum l”) ‘ y x ‘ ‘ Y X I (Sm): hpm—tm \or ItPHm—IPHU \ 09-0040
PI6CV304 / PI6CV2304
160 MHz Clock Buffers
6PS8537F 09/14/09
Switching Waveforms
Propagation Delay
Package Skew – tSK(t)
Pulse Skew – tSK(p)
Output Skew – tSK(o)
CLK_IN
tPLH
3V
1.5V
0V
Y0 - Y3
VOH
1.5V
VOL
tPHL
2.0V
0.8V
tRtF
CLK_IN
t
PLHx
3V
1.5V
0V
Any Y
V
OH
1.5V
V
OL
t
PHLx
t
SK(o)
Any Y
V
OH
1.5V
V
OL
t
SK(o)
t
PLHy
t
PHLy
CLK_IN
t
PLH
3V
1.5V
0V
Any Y
V
OH
1.5V
V
OL
t
PHL
CLK_IN
t
PLH1
3V
1.5V
0V
Package 1
Any Y
V
OH
1.5V
V
OL
t
PHL1
t
SK(t)
Package 2
Any Y
V
OH
1.5V
V
OL
t
SK(t)
t
PLH2
t
PHL2
Output Duty Cycle – tDC
A
ny Y
t
H
t
CY
1.5V
09-0040
IDPERICUM” EHHH QHHH .114 290 i 047 310 max Y L45 @J ‘ isEATING 075 '03” A; PLANE 248 y 47; a 7 .256 ,w M Q 63 L L 675 .005 0.15 (DPERICUM‘ 09-0040
PI6CV304 / PI6CV2304
160 MHz Clock Buffers
7PS8537F 09/14/09
1
DESCRIPTION: 8-Pin, 173-Mil Wide, TSSOP
PACKAGE CODE: L
DOCUMENT CONTROL NO.
PD - 1308
REVISION: E
DATE: 11/15/05
Note:
1. Package Outline Exclusive of Mold Flash and Metal Burr
2. Controlling dimentions in millimeters
3. Ref: JEDEC MO-153F/AA
Pericom Semiconductor Corporation
3545 N. 1st Street, San Jose, CA 95134
1-800-435-2335 • www.
p
ericom.com
Packaging Mechanical: 8-Pin TSSOP (L)
Note:
For latest package info, please check: http://www.pericom.com/products/packaging/mechanicals.php
09-0040
(binge/00M“ (EPER/caM“
PI6CV304 / PI6CV2304
160 MHz Clock Buffers
8PS8537F 09/14/09
1
DESCRIPTION: 8-Pin, 150-Mil Wide, SOIC
PACKAGE CODE: W
DOCUMENT CONTROL NO.
PD - 1001
REVISION: F
DATE: 03/09/05
Notes:
1) Controlling dimensions in millimeters.
2) Ref: JEDEC MS-012D/AA
Pericom Semiconductor Corporation
3545 N. 1st Street, San Jose, CA 95134
1-800-435-2335 • www.pericom.com
Ordering Information
Pericom Semiconductor Corporation • 1-800-435-2336 • www.pericom.com
Notes:
1. Thermal characteristics can be found on the company web site at www.pericom.com/packaging/
Ordering Code Package Code Package Type
PI6CV304L L 8-pin 173-mil wide TSSOP
PI6CV304LE L Pb-free & Green, 8-pin 173-mil wide TSSOP
PI6CV304W W 8-pin 150-mil wide SOIC
PI6CV304WE W Pb-free & Green, 8-pin 150-mil wide SOIC
PI6CV2304L L 8-pin 173-mil wide TSSOP
PI6CV2304LE L Pb-free & Green, 8-pin 173-mil wide TSSOP
PI6CV2304WE W Pb-free & Green, 8-pin 150-mil wide SOIC
Packaging Mechanical: 8-Pin SOIC (W)
Note:
For latest package info, please check: http://www.pericom.com/products/packaging/mechanicals.php
09-0040