CYPRESS CY2PP3220

FastEdge™ Series
CY2PP3220
Dual 1:10 Differential Clock/Data Fanout Buffer
Features
Functional Description
• Two sets of ten ECL/PECL differential outputs
• Two ECL/PECL differential inputs
• Hot-swappable/-insertable
• 50 ps output-to-output skew
• 150 ps device-to-device skew
• 500 ps propagation delay (typical)
• 1.5 GHz Operation (2.7 GHz max. toggle frequency)
• PECL mode supply range: VCC = 2.5V± 5% to 3.3V±5%
with VEE = 0V
• ECL mode supply range: VE E = –2.5V± 5% to –3.3V±5%
with VCC = 0V
• Industrial temperature range: –40°C to 85°C
• 52-pin 1.4-mm TQFP package
• Temperature compensation like 100K ECL
The CY2PP3220 is a low-skew, low propagation delay dual
1-to-10 differential fanout buffer targeted to meet the requirements of high-performance clock and data distribution applications. The device is implemented on SiGe technology and has
a fully differential internal architecture that is optimized to
achieve low signal skews at operating frequencies of up to 1.5
GHz.
The device features two differential input paths that are differential internally. The CY2PP3220 may function not only as a
differential clock buffer but also as a signal-level translator and
fanout on ECL/PECL signal to twenty ECL/PECL differential
loads. An external bias pin, VBB, is provided for this purpose.
In such an application, the VBB pin should be connected to
either one of the CLKA# or CLKB# inputs and bypassed to
ground via a 0.01-µF capacitor. Traditionally, in ECL, it is used
to provide the reference level to a receiving single-ended input
that might have a different self-bias point.
Since the CY2PP3220 introduces negligible jitter to the timing
budget, it is the ideal choice for distributing high frequency,
high precision clocks across back-planes and boards in communication systems. Furthermore, advanced circuit design
schemes, such as internal temperature compensation, ensure
that the CY2PP3220 delivers consistent performance over
various platforms.
• Pin compatible with MC100ES6220
CLKA
VCC
CLKA#
VEE
VCC
3901 North First Street
VCC
QA5#
QA5
QA4#
QA4
QA3#
QA3
QA2#
34
QA8#
CLKB
7
33
QA9
CLKB#
8
32
QA9#
VEE
QB9#
9
31
QB0
10
30
QB0#
QB9
11
29
QB1
QB8#
12
28
QB1#
•
CY2PP3220
San Jose, CA 95134
VCC
QB2
QB2#
QB3
13
27
14 15 16 17 18 19 20 21 22 23 24 25 26
QB3#
QB8
VCC
•
QA2
6
VBB
Cypress Semiconductor Corporation
Document #: 38-07513 Rev.*C
QA1#
QA8
VBB
QB4
QB9
QB9#
35
QB4#
V EE
5
QB5
V EE
QA7#
CLKA#
QB5#
CLKB#
QA7
36
QB6
CLKB
QA6#
4
QB6#
QB0
QB0#
V CC
QA6
CLKA
QB7
QA9
QA9#
52 51 50 49 48 47 46 45 44 43 42 41 40
39
1
38
2
37
3
QB7#
V EE
V EE
QA1
QA0
QA0#
V CC
QA0#
QA0
Pin Configuration
Block Diagram
•
408-943-2600
Revised July 28, 2004
FastEdge™ Series
CY2PP3220
Pin Definitions[1, 2, 3]
Pin
Name
I/O
4
CLKA,
5
CLKA#
I,PD
6
VBB[3]
O
7
CLKB,
I,PD
8
CLKB#
3,9
VEE[2]
–PWR
1,2,14,27,40
VCC
+PWR
Type
Description
ECL/PECL ECL/PECL Differential input clocks
I,PD/PU ECL/PECL ECL/PECL Differential input clocks
Bias
Reference Voltage Output
ECL/PECL ECL/PECL Differential input clocks
I,PD/PU ECL/PECL ECL/PECL Differential input clocks
Power
Negative Supply
Power
Positive Supply
52,50,48,46,44,42,39,37, QA(0:9)
35,33
O
ECL/PECL True output
51,49,47,45,43,41,38,36, QA#(0:9)
34,32
O
ECL/PECL Complement output
31,29,26,24,22,20,18,16, QB(0:9)
13,11
O
ECL/PECL True output
30,28,25,23,21,19,17,15, QB#(0:9)
12,10
O
ECL/PECL Complement output
Governing Agencies
The following agencies provide specifications that apply to the
CY2PP3220. The agency name and relevant specification is
listed below in Table 2.
Table 1.
Agency Name
Specification
JEDEC
JESD 020B (MSL)
JESD 51 (Theta JA)
JESD 8–2 (ECL)
JESD 65–B (skew,jitter)
Mil-Spec
883E Method 1012.1 (Thermal Theta JC)
Notes:
1. In the I/O column, the following notation is used: I for Input, O for Output, PD for Pull-Down, PU for Pull-Up, and PWR for Power
2. In ECL mode (negative power supply mode), VEE is either –3.3V or –2.5V and VCC is connected to GND (0V). In PECL mode (positive power supply mode),
VEE is connected to GND (0V) and VCC is either +3.3V or +2.5V. In both modes, the input and output levels are referenced to the most positive supply (VCC)
and are between VCC and VEE.
3. VBB is available for use for single-ended bias mode for |3.3V| supplies (not |2.5V|).
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FastEdge™ Series
CY2PP3220
Absolute Maximum Ratings
Parameter
Description
Condition
Min.
Max.
Unit
VCC
Positive Supply Voltage
Non-Functional
–0.3
4.6
V
VEE
Negative Supply Voltage
Non-Functional
-4.6
0.3
V
TS
Temperature, Storage
Non-Functional
–65
+150
°C
TJ
Temperature, Junction
Non-Functional
150
°C
ESDh
ESD Protection
Human Body Model
MSL
Moisture Sensitivity Level
Gate Count Total Number of Used Gates
2000
V
3
N.A.
50
gates
Assembled Die
Multiple Supplies: The Voltage on any input or I/O pin cannot exceed the power pin during power-up. Power supply sequencing is NOT required.
Operating Conditions
Parameter
Description
Condition
IBB
Output Reference Current
LUI
Latch Up Immunity
Functional, typical
TA
Temperature, Operating Ambient
Functional
Relative to VBB
Min.
Max.
Unit
–
|200|
uA
100
mA
–40
+85
ØJc
Dissipation, Junction to Case
Functional
22[4]
ØJa
Dissipation, Junction to Ambient
Functional
60[4]
IEE
Maximum Quiescent Supply Current
CIN
Input pin capacitance
LIN
Pin Inductance
VIN
Input Voltage
VEE
pin[5]
250
VTT
Output Termination Voltage
Relative to VCC
Output Voltage
Relative to VCC[6]
IIN
Input
°C/W
3
pF
–
1
nH
–0.3
VCC + 0.3
V
[6]
VOUT
°C/W
mA
–
Relative to VCC[6]
Current[7]
°C
VCC – 2
–0.3
VIN = VIL, or VIN = VIH
V
VCC + 0.3
V
l150l
uA
PECL DC Electrical Specifications
Parameter
Description
Condition
VCC
Operating Voltage
2.5V ± 5%, VEE = 0.0V
3.3V ± 5%, VEE = 0.0V
VCMR
Differential Cross Point Voltage[8]
Differential operation
mA[9]
Min.
Max.
Unit
2.375
3.135
2.625
3.465
V
V
1.2
VCC
V
VCC – 1.25
VCC – 0.7
V
VCC – 1.995
VCC –1.995
VCC – 1.5
VCC – 1.3
V
V
VOH
Output High Voltage
IOH = –30
VOL
Output Low Voltage
VCC = 3.3V ± 5%
VCC = 2.5V ± 5%
IOL = –5 mA[9]
VIH
Input Voltage, High
Single-ended operation
VCC – 1.165
VCC – 0.880 [10]
V
VIL
Input Voltage, Low
Single-ended operation
VCC – 1.945 [10]
VCC – 1.625
V
VBB[3]
Output Reference Voltage
Relative to VCC[6]
VCC – 1.620
VCC – 1.220
Notes:
4. Theta JA EIA JEDEC 51 test board conditions (typical value); Theta JC 883E Method 1012.1
5. Power Calculation: VCC * IEE +0.5 (IOH + IOL) (VOH – VOL) (number of differential outputs used); IEE does not include current going off chip.
6. where VCC is 3.3V±5% or 2.5V±5%
7. Inputs have internal pull-up/pull-down or biasing resistors which affect the input current.
8. Refer to Figure 1
9. Equivalent to a termination of 50Ω to VTT. IOHMIN=(VOHMIN-VTT)/50; IOHMAX=(VOHMAX-VTT)/50; IOLMIN=(VOLMIN-VTT)/50; IOLMAX=(VOLMAX-VTT)/50;
10. VIL will operate down to VEE; VIH will operate up to VCC
Document #: 38-07513 Rev.*C
V
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FastEdge™ Series
CY2PP3220
ECL DC Electrical Specifications
Parameter
Description
Condition
VEE
Negative Power Supply
VCMR
Differential cross point voltage[8]
Differential operation
VOH
Output High Voltage
IOH = –30 mA[9]
VOL
Output Low Voltage
VEE = –3.3V ± 5%
VEE = –2.5V ± 5%
IOL = –5 mA[9]
VIH
Input Voltage, High
Single-ended operation
–2.5V ± 5%, VCC = 0.0V
–3.3V ± 5%, VCC = 0.0V
VIL
Input Voltage, Low
VBB[3]
Output Reference Voltage
Single-ended operation
Min.
Max.
Unit
–2.625
–3.465
–2.375
–3.135
V
VEE + 1.2
0V
V
–1.25
–0.7
V
–1.995
–1.995
–1.5
–1.3
V
–1.165
–0.880 [10]
V
[10]
–1.945
–1.625
V
– 1.620
– 1.220
V
Min.
Max.
Unit
0.1
1.3
V
1.5
GHz
400
750
ps
0.375
–
V
AC Electrical Specifications
Parameter
Description
Voltage[8]
Condition
VPP
Differential Input
FCLK
Input Frequency
50% duty cycle Standard load
TPD
Propagation Delay CLKA or CLKB to
Output pair
660 MHz [11]
Vo
Output Voltage (peak-to-peak; see
Figure 2)
< 1 GHz
VCMRO
Output Common Voltage Range (typ.)
tsk(0)
Output-to-output Skew
660 MHz [11], See Figure 3
–
50
ps
tsk(PP)
Part-to-Part Output Skew
660 MHz [11]
–
150
ps
660 MHz [11]
–
1.2
ps
–
50
ps
0.08
0.3
ns
TPER
Output Period Jitter
(rms)[12]
Skew[13]
tsk(P)
Output Pulse
TR,TF
Output Rise/Fall Time (see Figure 2)
Differential operation
VCC – 1.425
660 MHz
[11],
See Figure 3
660 MHz 50% duty cycle
Differential 20% to 80%
V
Timing Definitions
VCC
VCM R Max = VCC
VIH
VPP
VPP range
0.1V - 1.3V
VCM R
VIL
VCMR M in = VEE + 1.2
VEE
Figure 1. PECL/ECL Input Waveform Definitions
Notes:
11. 50% duty cycle; standard load; differential operation
12. For 3.3V supplies. Jitter measured differentially using an Agilent 8133A Pulse Generator with an 8500A LeCroy Wavemaster Oscilloscope using at least 10,000
data points
13. Output pulse skew is the absolute difference of the propagation delay times: | tPLH – tPHL |.
Document #: 38-07513 Rev.*C
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FastEdge™ Series
CY2PP3220
tr, tf,
20-80%
VO
Figure 2. ECL/LVPECL Output
In p u t
C lo c k
V P P
TP L H ,
TP H L
T P D
O u tp u t
C lo c k
V O
tS K (O )
A n o th e r
O u tp u t
C lo c k
Figure 3. Propagation Delay (TPD), output pulse skew (|tPLH-tPHL|), and output-to-output skew (tSK(O))
for both CLKA or CLKB to Output Pair, PECL/ECL to PECL/ECL
Test Configuration
Standard test load using a differential pulse generator and
differential measurement instrument.
VTT
VTT
RT = 50 ohm
RT = 50 ohm
P u ls e
G e n e ra to r
Z = 50 ohm
5"
Zo = 50 ohm
Zo = 50 ohm
5"
RT = 50 ohm
DUT
CY2PP3220
VTT
RT = 50 ohm
VTT
Figure 4. CY2PP3220 AC Test Reference
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FastEdge™ Series
CY2PP3220
Applications Information
Termination Examples
CY2PP3220
VTT
VCC
RT = 50 ohm
5"
Zo = 50 ohm
5"
RT = 50 ohm
VTT
VEE
Figure 5. Standard LVPECL – PECL Output Termination
CY2PP3220
VTT
RT = 50 ohm
VCC
5"
Zo = 50 ohm
5"
VTT
R T = 50 ohm
V B B (3 .3 V )
VEE
Figure 6. Driving a PECL/ECL Single-ended Input
CY2PP3220
3 .3 V
V C C = 3 .3 V
120 ohm
LVDS
5"
Zo = 50 ohm
33 ohm
( 2 p la c e s )
5"
120 ohm
3 .3 V
VEE = 0V
51 ohm
( 2 p la c e s )
L V P E C L to
LVDS
Figure 7. Low-voltage Positive Emitter-coupled Logic (LVPECL) to a Low-voltage Differential Signaling (LVDS) Interface
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FastEdge™ Series
CY2PP3220
VDD-2
VCC
X
Y
Z
One output is shown for clarity
Figure 8. Termination for LVPECL to HTSL interface for VCC=2.5V would use X=50 Ohms, Y=2300 Ohms, and Z=1000
Ohms. See application note titled, “PECL Translation, SAW Oscillators, and Specs” for other signalling standards and
supplies.
Ordering Information
Part Number
Package Type
Product Flow
CY2PP3220AI
52-pin TQFP
Industrial, –40° to 85°C
CY2PP3220AIT
52-pin TQFP – Tape and Reel
Industrial, –40° to 85°C
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FastEdge™ Series
CY2PP3220
Package Drawing and Dimensions
52-lead Thin Plastic Quad Flat Pack (10 x 10 x 1.4 mm) A52
51-85131-**
FastEdge is a trademark of Cypress Semiconductor. All product and company names mentioned in this document are the
trademarks of their respective holders.
Document #: 38-07513 Rev.*C
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© Cypress Semiconductor Corporation, 2004. The information contained herein is subject to change without notice. Cypress Semiconductor Corporation assumes no responsibility for the use
of any circuitry other than circuitry embodied in a Cypress product. Nor does it convey or imply any license under patent or other rights. Cypress products are not warranted nor intended to be
used for medical, life support, life saving, critical control or safety applications, unless pursuant to an express written agreement with Cypress. Furthermore, Cypress does not authorize its
products for use as critical components in life-support systems where a malfunction or failure may reasonably be expected to result in significant injury to the user. The inclusion of Cypress
products in life-support systems application implies that the manufacturer assumes all risk of such use and in doing so indemnifies Cypress against all charges.
FastEdge™ Series
CY2PP3220
Document History Page
Document Title: CY2PP3220 FastEdge™ Series Dual 1:10 Differential Clock/Data Fanout Buffer
Document Number: 38-07513
Issue Date
Orig. of
Change
REV.
ECN NO.
**
122437
02/13/03
RGL
New Data Sheet
*A
125459
04/16/03
RGL
Interchanged Pin 30 and 31 from QB0 /QB0# to QB0#/QB0
Changed the title to FastEdge™ Series Dual 1:10 Differential Clock/Data
Fanout Buffer
*B
229372
See ECN
RGL
Supplied data to all TBD’s to match the device.
*C
247613
See ECN
Document #: 38-07513 Rev.*C
Description of Change
RGL/GGK Changed VOH and VOL to match the Char Data
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