IDT ICS87951AYI

ICS87951I-147
LOW SKEW, 1-TO-9 DIFFERENTIAL-TOLVCMOS ZERO DELAY BUFFER
GENERAL DESCRIPTION
FEATURES
The ICS87951I-147 is a low voltage, low skew 1ICS
to-9 Differential-to-LVCMOS/LVTTL Zero Delay
HiPerClockS™
Buffer and a member of the HiPerClockS™family
of High Performance Clock Solutions from ICS.
The ICS87951I-147 has two selectable clock inputs. The single ended clock input accepts LVCMOS or LVTTL
input levels. The CLK1, nCLK1 pair can accept most standard
differential input levels. With output frequencies up to 180MHz,
the ICS87951I-147 is targeted for high performance clock
applications. Along with a fully integrated PLL, the ICS87951I147 contains frequency configurable outputs and an external
feedback input for regenerating clocks with “zero delay”.
• Fully integrated PLL
• Nine single ended 3.3V or 2.5V LVCMOS/LVTTL outputs
• Selectable single ended CLK0 or
differential CLK1, nCLK1 inputs
• The single ended CLK0 input can accept the following
input levels: LVCMOS or LVTTL input levels
• CLK1, nCLK1 supports the following input types:
LVDS, LVPECL, LVHSTL, SSTL, HCSL
• Output frequency range: 31.25MHz to 200MHz
• VCO range: 250MHz to 500MHz
• External feedback for ”zero delay” clock regeneration
• Cycle-to-cycle jitter, RMS: 7ps (maximum)
• Output skew: 270ps (maximum)
• Full 3.3V operating supply at -40°C to 85°C ambient
operating temperature
• Full 2.5V operating supply at 0°C to 85°C ambient
operating temperature
• Available in both standard and lead-free RoHS compliant
packages
PIN ASSIGNMENT
GND
QB
VDDO
QA
GND
CLK0
PLL_SEL
CLK_SEL
32 31 30 29 28 27 26 25
VDDA
1
24
EXT_FB
2
23
VDDO
DIV_SELA
3
22
QC1
21
GND
20
QD0
QC0
DIV_SELB
4
DIV_SELC
5
DIV_SELD
6
19
VDDO
GND
7
18
QD1
CLK1
8
17
GND
ICS87951I-147
9 10 11 12 13 14 15 16
QD2
VDDO
QD3
GND
QD4
VDDO
MR/nOE
nCLK1
32-Lead LQFP
7mm x 7mm x 1.4mm package body
Y package
Top View
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ICS87951I-147 REV A JUNE 21, 2006
ICS87951I-147
LOW SKEW, 1-TO-9, DIFFERENTIAL-TO-LVCMOS ZERO DELAY BUFFER
BLOCK DIAGRAM
DIV_SELA Internal Pulldown
PLL_SEL Internal Pulldown
CLK0 Internal Pulldown
CLK_SEL
nCLK1
CLK1
Internal Pulldown
Internal
Pulldown/
Pullup
1
0
÷2
PHASE
DETECTOR
VCO
250-500MHz
0
1
0
QA
÷4
÷8
1
0
LPF
QB
1
EXT_FB Internal Pullup
DIV_SELB Internal Pulldown
0
QC0
1
QC1
DIV_SELC Internal Pulldown
MR/nOE Internal Pulldown
POWER-ON RESET
QD0
0
QD1
1
QD2
QD3
DIV_SELD Internal Pulldown
QD4
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LOW SKEW, 1-TO-9, DIFFERENTIAL-TO-LVCMOS ZERO DELAY BUFFER
TABLE 1. PIN DESCRIPTIONS
Number
Name
1
VDDA
Power
2
EXT_FB
Input
Pullup
3
DIV_SELA
Input
Pulldown
4
DIV_SELB
Input
Pulldown
5
DIV_SELC
Input
Pulldown
6
DIV_SELD
Input
Pulldown
7, 13, 17,
21, 25, 29
GND
Power
8
CLK1
Input
9
nCLK1
Input
Pulldown Inver ting differential clock input.
MR/nOE
Input
Active High Master Reset. Active LOW output enable. When logic
HIGH, the internal dividers are reset and the outputs are tri-stated
Pulldown
(HiZ). When logic LOW, the internal dividers and outputs are enabled.
LVCMOS / LVTTL interface levels.
10
Type
11, 15,
19, 23, 27
12, 14,
16, 18, 20
VDDO
Power
QD4, QD3,
QD2, QD1, QD0
Output
22, 24
QC1, QC0
Output
26
QB
Output
28
QA
Output
30
CLK0
Input
31
PLL_SEL
Input
32
CLK_SEL
Input
Description
Analog supply pin.
Feedback input to phase detector for regenerating clocks with
"zero delay". LVCMOS / LVTTL interface levels.
Selects divide value for Bank A output as described in Table 3D.
LVCMOS / LVTTL interface levels.
Selects divide value for Bank B output as described in Table 3D.
LVCMOS / LVTTL interface levels.
Selects divide value for Bank C outputs as described in Table 3D.
LVCMOS / LVTTL interface levels.
Selects divide value for Bank D outputs as described in Table 3D.
LVCMOS / LVTTL interface levels.
Power supply ground.
Pullup
Non-inver ting differential clock input.
Output supply pins.
Bank D clock outputs. 7Ω typical output impedance.
LVCMOS / LVTTL interface levels.
Bank C clock outputs. 7Ω typical output impedance.
LVCMOS / LVTTL interface levels.
Bank B clock output. 7Ω typical output impedance.
LVCMOS / LVTTL interface levels.
Bank A clock output. 7Ω typical output impedance.
LVCMOS / LVTTL interface levels.
Pulldown LVCMOS / LVTTL phase detector reference clock input.
Selects between the PLL and the reference clock as the input to the
Pulldown dividers. When HIGH, selects PLL. When LOW, selects the reference
clock. LVCMOS / LVTTL interface levels.
Clock select input. When HIGH, selects CLK0. When LOW,
Pulldown
selects CLK1, nCLK1. LVCMOS / LVTTL interface levels.
NOTE: Pullup and Pulldown refer to internal input resistors. See Table 2, Pin Characteristics, for typical values.
TABLE 2. PIN CHARACTERISTICS
Symbol
Parameter
CIN
Input Capacitance
Test Conditions
Minimum Typical
Maximum
Units
4
pF
VDDA, VDDO = 3.465V
25
pF
VDDA, VDDO = 2.625V
CPD
Power Dissipation Capacitance (per output)
15
pF
RPULLUP
Input Pullup Resistor
51
kΩ
RPULLDOWN
Input Pulldown Resistor
51
kΩ
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LOW SKEW, 1-TO-9, DIFFERENTIAL-TO-LVCMOS ZERO DELAY BUFFER
TABLE 3A. OUTPUT CONTROL PIN FUNCTION TABLE
Input
Outputs
MR/nOE
QA
QB
QC0, QC1
QD0:QD4
1
HiZ
HiZ
HiZ
HiZ
0
Enabled
Enabled
Enabled
Enabled
TABLE 3B. OPERATING MODE FUNCTION TABLE
Input
PLL_SEL
TABLE 3C. PLL INPUT FUNCTION TABLE
Inputs
Operating Mode
CLK_SEL
PLL Input
0
Bypass
0
CLK1, nCLK1
1
PLL
1
CLK0
TABLE 3D. PROGRAMMABLE OUTPUT FREQUENCY FUNCTION TABLE
Inputs
Outputs
DIV_SELA
DIV_SELB
DIV_SELC
DIV_SELD
QA
QB
QCx
QDx
0
0
0
0
VCO/2
VCO/4
VCO/4
VCO/4
0
0
0
1
VCO/2
VCO/4
VCO/4
VCO/8
0
0
1
0
VCO/2
VCO/4
VCO/8
VCO/4
0
0
1
1
VCO/2
VCO/4
VCO/8
VCO/8
0
1
0
0
VCO/2
VCO/8
VCO/4
VCO/4
0
1
0
1
VCO/2
VCO/8
VCO/4
VCO/8
0
1
1
0
VCO/2
VCO/8
VCO/8
VCO/4
0
1
1
1
VCO/2
VCO/8
VCO/8
VCO/8
1
0
0
0
VCO/4
VCO/4
VCO/4
VCO/4
1
0
0
1
VCO/4
VCO/4
VCO/4
VCO/8
1
0
1
0
VCO/4
VCO/4
VCO/8
VCO/4
1
0
1
1
VCO/4
VCO/4
VCO/8
VCO/8
1
1
0
0
VCO/4
VCO/8
VCO/4
VCO/4
1
1
0
1
VCO/4
VCO/8
VCO/4
VCO/8
1
1
1
0
VCO/4
VCO/8
VCO/8
VCO/4
1
1
1
1
VCO/4
VCO/8
VCO/8
VCO/8
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ABSOLUTE MAXIMUM RATINGS
Supply Voltage, VDD
4.6V
Inputs, VI
-0.5V to VDDA + 0.5 V
Outputs, VO
-0.5V to VDDO + 0.5V
NOTE: Stresses beyond those listed under Absolute
Maximum Ratings may cause permanent damage to the
device. These ratings are stress specifications only. Functional operation of product at these conditions or any conditions beyond
those listed in the DC Characteristics or AC Characteristics is not
implied. Exposure to absolute maximum rating conditions for extended periods may affect product reliability.
Package Thermal Impedance, θJA 42.1°C/W (0 lfpm)
Storage Temperature, TSTG
-65°C to 150°C
TABLE 4A. POWER SUPPLY DC CHARACTERISTICS, VDDA = VDDO = 3.3V±5%, TA = -40°C TO 85°C
Symbol
Parameter
Test Conditions
Minimum
Typical
Maximum
Units
VDDA
Analog Supply Voltage
3.135
3.3
3.465
V
VDDO
Output Supply Voltage
3.135
3. 3
3.465
V
IDDO
Power Supply Current
115
mA
IDDA
Analog Supply Current
20
mA
All VDD pins
TABLE 4B. POWER SUPPLY DC CHARACTERISTICS, VDDA = VDDO = 2.5V±5%, TA = 0°C TO 85°C
Symbol
Parameter
VDDA
Analog Supply Voltage
Test Conditions
VDDO
Output Supply Voltage
IDDO
Power Supply Current
IDDA
Analog Supply Current
Minimum
Typical
Maximum
Units
2.375
2. 5
2.625
V
2.375
2.5
2.625
V
75
mA
12
mA
All VDD pins
TABLE 4C. DC CHARACTERISTICS, VDDA = VDDO = 3.3V±5%, TA = -40°C TO 85°C
Symbol Parameter
VIH
Input High Voltage
VIL
Input Low Voltage
IIN
VPP
VCMR
VOH
VOL
Test Conditions
Maximum
Units
2
VDD + 0.3
V
-0.3
0.8
V
-0.3
1.3
V
±120
µA
0.15
1.3
V
GND + 0.5
VDD - 0.85
V
IOL = 40mA
0.55
V
IOL = 12mA
0.3
V
DIV_SELA:DIV_SELD,
EXT_FB, MR/nOE,
PLL_SEL, CLK_SEL
DIV_SELA:DIV_SELD,
EXT_FB, MR/nOE,
PLL_SEL, CLK_SEL
CLK0
Input Current
Peak-to-Peak
CLK1, nCLK1
Input Voltage
Common Mode
Input Voltage;
CLK1, nCLK1
NOTE 1, 2
Output High Voltage
Output Low Voltage
IOH = -40mA
Minimum
Typical
2.4
V
NOTE 1: Common mode voltage is defined as VIH.
NOTE 2: For single ended applications, the maximum input voltage for CLK1 and nCLK1 is VDDA+ 0.3V.
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LOW SKEW, 1-TO-9, DIFFERENTIAL-TO-LVCMOS ZERO DELAY BUFFER
TABLE 4D. DC CHARACTERISTICS, VDDA = VDDO = 2.5V±5%, TA = 0°C TO 85°C
Symbol Parameter
VIH
Input High Voltage
VIL
Input Low Voltage
IIN
VPP
VCMR
Test Conditions
DIV_SELA:DIV_SELD,
EXT_FB, MR/nOE,
PLL_SEL, CLK_SEL
DIV_SELA:DIV_SELD,
EXT_FB, MR/nOE,
PLL_SEL, CLK_SEL
CLK0
Input Current
Peak-to-Peak
Input Voltage
Common Mode
Input Voltage;
NOTE 1, 2
Minimum
Typical
Maximum
Units
2
VDD + 0.3
V
-0.3
0.8
V
-0.3
0.8
V
±150
µA
CLK1, nCLK1
0.15
1.3
V
CLK1, nCLK1
GND + 0.5
VDD - 0.85
V
VOH
Output High Voltage
IOH = -15mA
VOL
Output Low Voltage
IOL = 15mA
1.8
V
0.6
V
Maximum
Units
250
MHz
Maximum
Units
250
MHz
Qx ÷4
125
MHz
QB, QC, QD ÷8
62.5
MHz
250
500
MHz
-135
170
ps
-420
-100
ps
270
ps
7.5
ps
10
mS
30 0
800
ps
46
54
%
NOTE 1: Common mode voltage is defined as VIH.
NOTE 2: For single ended applications, the maximum input voltage for CLK1 and nCLK1 is VDDA+ 0.3V.
TABLE 5. PLL INPUT REFERENCE CHARACTERISTICS, VDDA = VDDO = 3.3V±5%, TA = -40°C TO 85°C
Symbol
Parameter
fREF
Input Reference Frequency
Test Conditions
Minimum
Typical
TABLE 6A. AC CHARACTERISTICS, VDDA = VDDO = 3.3V±5%, TA = -40°C TO 85°C
Symbol
Parameter
Test Conditions
Minimum
QA ÷2
fMAX
fVCO
t(Ø)
tsk(o)
tjit(cc)
tLOCK
Output Frequency
PLL VCO Lock Range
CLK0
Static Phase Offset;
CLK1,
NOTE 1,3
nCLK1
Output Skew; NOTE 2, 3
Cycle-to-Cycle Jitter, RMS;
NOTE 3
PLL Lock Time; NOTE 3
fREF = 50MHz,
Feedback = VCO/8
All Outputs @ Same Frequency
Typical
tR / tF
Output Rise/Fall Time
odc
Output Duty Cycle
tPZL
Output Enable Time
6
ns
tPLZ, tPHZ
Output Disable Time
7
ns
20% to 80%
All parameters measured at fMAX unless noted otherwise.
NOTE 1: Defined as the time difference between the input reference clock and the averaged feedback input signal,
when the PLL is locked and the input reference frequency is stable.
NOTE 2: Defined as skew between outputs at the same supply voltage and with equal load conditions.
Measured at VDDO/2.
NOTE 3: This parameter is defined in accordance with JEDEC Standard 65.
IDT ™ / ICS™ DIFFERENTIAL-TO-LVCMOS ZERO DELAY BUFFER
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TABLE 6B. AC CHARACTERISTICS, VDDA = VDDO = 2.5V±5%, TA = 0°C TO 85°C
Symbol
fMAX
fVCO
Parameter
Test Conditions
Maximum
Units
QA ÷2
200
MHz
Qx ÷4
120
MHz
QB, QC, QD ÷8
60
MH z
Output Frequency
Minimum
Typical
PLL VCO Lock Range
250
500
MHz
-180
220
ps
-500
-165
ps
310
ps
9
ps
tLOCK
CLK0
Static Phase Offset;
C
LK1,
NOTE 1,3
nCLK1
Output Skew; NOTE 2, 3
Cycle-to-Cycle Jitter, RMS;
NOTE 3
PLL Lock Time; NOTE 3
10
mS
300
700
ps
46
54
%
t(Ø)
tsk(o)
tjit(cc)
FVCO ≤ 400MHz,
All Outputs @ same frequency
tR / tF
Output Rise/Fall Time
o dc
Output Duty Cycle
tPZL
Output Enable Time
6
ns
tPLZ, tPHZ
Output Disable Time
7
ns
20% to 80%
All parameters measured at fMAX unless noted otherwise.
NOTE 1: Defined as the time difference between the input reference clock and the averaged feedback input signal,
when the PLL is locked and the input reference frequency is stable.
NOTE 2: Defined as skew between outputs at the same supply voltage and with equal load conditions.
Measured at VDDO/2.
NOTE 3: This parameter is defined in accordance with JEDEC Standard 65.
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PARAMETER MEASUREMENT INFORMATION
1.65V±5%
1.25V±5%
SCOPE
VDDA,
VDDO
Qx
LVCMOS
SCOPE
VDDA,
VDDO
Qx
LVCMOS
GND
GND
-1.65V±5%
-1.25V±5%
3.3V OUTPUT LOAD AC TEST CIRCUIT
2.5V OUTPUT LOAD AC TEST CIRCUIT
VDD
V
DDO
Qx
nCLK1
V
V
Cross Points
PP
2
CMR
V
CLK1
DDO
Qy
2
t sk(o)
GND
DIFFERENTIAL INPUT LEVEL
V
V
V
DDO
DDO
2
DDO
2
➤
QA, QB,
QCx,
QDx
OUTPUT SKEW
➤
tcycle n
tcycle n+1
80%
80%
2
➤
Clock
Outputs
➤
t jit(cc) = tcycle n –tcycle n+1
20%
20%
tR
tF
1000 Cycles
CYCLE-TO-CYCLE JITTER
OUTPUT RISE/FALL TIME
nCLK1
CLK0,
CLK1
V
DDO
2
VDD
t PW
t
odc =
2
EXT_FB
PERIOD
t PW
➤ t (Ø)
➤
QAx, QBx,
QCx, QDx
tjit(Ø) = t (Ø) — t (Ø) mean = Phase Jitter
x 100%
t (Ø) mean = Static Phase Offset
t PERIOD
(where t (Ø) is any random sample, and t (Ø) mean is the average
of the sampled cycles measured on controlled edges)
OUTPUT DUTY CYCLE/PULSE WIDTH/PERIOD
IDT ™ / ICS™ DIFFERENTIAL-TO-LVCMOS ZERO DELAY BUFFER
PHASE JITTER AND STATIC PHASE OFFSET
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APPLICATION INFORMATION
WIRING THE DIFFERENTIAL INPUT TO ACCEPT SINGLE ENDED LEVELS
Figure 1 shows how the differential input can be wired to accept
single ended levels. The reference voltage V_REF = VDD/2 is
generated by the bias resistors R1, R2 and C1. This bias circuit
should be located as close as possible to the input pin. The ratio
of R1 and R2 might need to be adjusted to position the V_REF in
the center of the input voltage swing. For example, if the input
clock swing is only 2.5V and VDD = 3.3V, V_REF should be 1.25V
and R2/R1 = 0.609.
VDD
R1
1K
Single Ended Clock Input
CLK
V_REF
nCLK
C1
0.1u
R2
1K
FIGURE 1. SINGLE ENDED SIGNAL DRIVING DIFFERENTIAL INPUT
POWER SUPPLY FILTERING TECHNIQUES
As in any high speed analog circuitry, the power supply pins
are vulnerable to random noise. The ICS87951I-147 provides
separate power supplies to isolate any high switching
noise from the outputs to the internal PLL. V DDA, and V DDO
should be individually connected to the power supply
plane through vias, and bypass capacitors should be
used for each pin. To achieve optimum jitter performance, power
supply isolation is required. Figure 2 illustrates how
a 10Ω resistor along with a 10µF and a .01µF bypass
capacitor should be connected to each VDDA pin.
IDT ™ / ICS™ DIFFERENTIAL-TO-LVCMOS ZERO DELAY BUFFER
3.3V or 2.5V
VDDO
.01µF
10Ω
VDDA
.01µF
10µF
FIGURE 2. POWER SUPPLY FILTERING
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RECOMMENDATIONS FOR UNUSED INPUT AND OUTPUT PINS
INPUTS:
CLK INPUT:
For applications not requiring the use of a clock input, it can be
left floating. Though not required, but for additional protection, a
1kΩ resistor can be tied from the CLK input to ground.
OUTPUTS:
LVCMOS OUTPUT:
All unused LVCMOS output can be left floating. There should be
no trace attached.
CLK/nCLK INPUT:
For applications not requiring the use of the differential input,
both CLK and nCLK can be left floating. Though not required, but
for additional protection, a 1kΩ resistor can be tied from CLK to
ground.
LVCMOS CONTROL PINS:
All control pins have internal pull-ups or pull-downs; additional
resistance is not required but can be added for additional
protection. A 1kΩ resistor can be used.
DIFFERENTIAL CLOCK INPUT INTERFACE
The CLK /nCLK accepts LVDS, LVPECL, LVHSTL, SSTL, HCSL
and other differential signals. Both VSWING and VOH must meet the
VPP and VCMR input requirements. Figures 3A to 3D show interface
examples for the HiPerClockS CLK/nCLK input driven by the most
common driver types. The input interfaces suggested here are
examples only. Please consult with the vendor of the driver
component to confirm the driver termination requirements. For
example in Figure 3A, the input termination applies for ICS
HiPerClockS LVHSTL drivers. If you are using an LVHSTL driver
from another vendor, use their termination recommendation.
3.3V
3.3V
3.3V
1.8V
Zo = 50 Ohm
CLK
Zo = 50 Ohm
CLK
Zo = 50 Ohm
nCLK
Zo = 50 Ohm
nCLK
LVHSTL
ICS
HiPerClockS
LVHSTL Driver
R1
50
LVPECL
HiPerClockS
Input
R1
50
R2
50
HiPerClockS
Input
R2
50
R3
50
FIGURE 3A. HIPERCLOCKS CLK/nCLK INPUT DRIVEN
ICS HIPERCLOCKS LVHSTL DRIVER
FIGURE 3B. HIPERCLOCKS CLK/nCLK INPUT DRIVEN
3.3V LVPECL DRIVER
BY
3.3V
3.3V
3.3V
3.3V
3.3V
R3
125
BY
R4
125
Zo = 50 Ohm
LVDS_Driv er
Zo = 50 Ohm
CLK
CLK
R1
100
Zo = 50 Ohm
nCLK
LVPECL
R1
84
HiPerClockS
Input
nCLK
Receiv er
Zo = 50 Ohm
R2
84
FIGURE 3C. HIPERCLOCKS CLK/nCLK INPUT DRIVEN
3.3V LVPECL DRIVER
FIGURE 3D. HIPERCLOCKS CLK/nCLK INPUT DRIVEN
3.3V LVDS DRIVER
BY
IDT ™ / ICS™ DIFFERENTIAL-TO-LVCMOS ZERO DELAY BUFFER
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LOW SKEW, 1-TO-9, DIFFERENTIAL-TO-LVCMOS ZERO DELAY BUFFER
RELIABILITY INFORMATION
TABLE 7. θJAVS. AIR FLOW TABLE
FOR
32 LEAD LQFP
θJA by Velocity (Linear Feet per Minute)
Single-Layer PCB, JEDEC Standard Test Boards
Multi-Layer PCB, JEDEC Standard Test Boards
0
200
500
67.8°C/W
47.9°C/W
55.9°C/W
42.1°C/W
50.1°C/W
39.4°C/W
NOTE: Most modern PCB designs use multi-layered boards. The data in the second row pertains to most
designs.
TRANSISTOR COUNT
The transistor count for ICS87951I-147 is: 2674
Pin compatible with the MPC951
IDT ™ / ICS™ DIFFERENTIAL-TO-LVCMOS ZERO DELAY BUFFER
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PACKAGE OUTLINE - Y SUFFIX FOR 32 LEAD LQFP
TABLE 8. PACKAGE DIMENSIONS
JEDEC VARIATION
ALL DIMENSIONS IN MILLIMETERS
BBA
SYMBOL
MINIMUM
NOMINAL
MAXIMUM
32
N
A
--
--
1.60
A1
0.05
--
0.15
A2
1.35
1.40
1.45
b
0.30
0.37
0.45
c
0.09
--
0.20
D
9.00 BASIC
D1
7.00 BASIC
D2
5.60 Ref.
E
9.00 BASIC
E1
7.00 BASIC
E2
5.60 Ref.
0.80 BASIC
e
L
0.45
0.60
0.75
θ
0°
--
7°
ccc
--
--
0.10
Reference Document: JEDEC Publication 95, MS-026
IDT ™ / ICS™ DIFFERENTIAL-TO-LVCMOS ZERO DELAY BUFFER
12
ICS87951I-147 REV A JUNE 21, 2006
ICS87951I-147
LOW SKEW, 1-TO-9, DIFFERENTIAL-TO-LVCMOS ZERO DELAY BUFFER
TABLE 9. ORDERING INFORMATION
Part/Order Number
Marking
Package
Shipping Packaging
Temperature
ICS87951AYI-147
ICS87951AYI-147
32 Lead LQFP
tray
-40°C to 85°C
ICS87951AYI-147T
ICS87951AYI-147
32 Lead LQFP
1000 tape & reel
-40°C to 85°C
ICS87951AYI-147LF
ICS951AI147L
32 Lead "Lead-Free" LQFP
tray
-40°C to 85°C
ICS87951AYI-147LFT
ICS951AI147L
32 Lead "Lead-Free" LQFP
1000 tape & reel
-40°C to 85°C
NOTE: Par ts that are ordered with an "LF" suffix to the par t number are the Pb-Free configuration and are RoHS compliant.
The ICS logo is a registered trademark, and HiPerClockS is a trademark of Integrated Circuit Systems, Inc. All other trademarks are the property of their respective owners and may
be registered in certain jurisdictions.
While the information presented herein has been checked for both accuracy and reliability, Integrated Circuit Systems, Incorporated (ICS) assumes no responsibility for either its use or for infringement of
any patents or other rights of third parties, which would result from its use. No other circuits, patents, or licenses are implied. This product is intended for use in normal commercial and industrial applications.
Any other applications such as those requiring high reliability or other extraordinary environmental requirements are not recommended without additional processing by ICS. ICS reserves the right to change
any circuitry or specifications without notice. ICS does not authorize or warrant any ICS product for use in life support devices or critical medical instruments.
IDT ™ / ICS™ DIFFERENTIAL-TO-LVCMOS ZERO DELAY BUFFER
13
ICS87951I-147 REV A JUNE 21, 2006
ICS87951I-147
LOW SKEW, 1-TO-9, DIFFERENTIAL-TO-LVCMOS ZERO DELAY BUFFER
REVISION HISTORY SHEET
Rev
A
A
Table
T9
T9
Page
1
13
10
13
Description of Change
Features Section - added Lead-Free bullet.
Ordering Information Table - added Lead-Free par t number and note.
Added Recommendations for Unused Input and Output Pins.
Ordering Information Table - corrected standard marking and added lead-free
marking.
IDT ™ / ICS™ DIFFERENTIAL-TO-LVCMOS ZERO DELAY BUFFER
14
Date
6/14/05
6/21/06
ICS87951I-147 REV A JUNE 21, 2006
ICS87951I-147
LOW SKEW, 1-TO-9, DIFFERENTIAL-TO-LVCMOS ZERO DELAY BUFFER
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© 2006 Integrated Device Technology, Inc. All rights reserved. Product specifications subject to change without notice. IDT and the IDT logo are trademarks of Integrated Device
Technology, Inc. Accelerated Thinking is a service mark of Integrated Device Technology, Inc. All other brands, product names and marks are or may be trademarks or registered
trademarks used to identify products or services of their respective owners.
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