ICS ICS97U2A845AHLF-T

ICS97U2A845A
Integrated
Circuit
Systems, Inc.
Advance Information
1.8V Low-Power Wide-Range Frequency Clock Driver
Recommended Application:
• DDR2 Memory Modules / Zero Delay Board Fan Out
• Provides complete DDR DIMM logic solution with
ICSSSTU32864/SSTUF32864/SSTUF32866/
SSTUA32864/SSTUA32866/SSTUA32S868/
SSTUA32S865/SSTUA32S869
Pin Configuration
1
2
3
4
5
A
B
Product Description/Features:
• Double the drive of the standard 97U877 device
• Low skew, low jitter PLL clock driver
• 1 to 5 differential clock distribution (SSTL_18)
• Feedback pins for input to output synchronization
• Spread Spectrum tolerant inputs
• Auto PD when input signal is at a certain logic state
C
D
E
F
Switching Characteristics:
• Period jitter: 40ps
• Half-period jitter: 60ps
• CYCLE - CYCLE jitter 40ps
• OUTPUT - OUTPUT skew: 40ps
28-Ball BGA
Top View
Block Diagram
Ball Assignments
CLKT0
LD* or OE
OE
Powerdown
Control and
Test Logic
OS
AVDD
CLKC0
1
2
3
4
5
A
CLKT0
CLKC0
CLKC1
CLKT1
FB_INT
B
CK_INT
V DD
NB
V DD
FB_INC
C
CK_INC
OE
VDD
OS
FB_OUTC
D
AGND
GND
VDD
GND
FB_OUTT
E
AVDD
GND
NB
GND
CLKT2
F
CLKC4
CLKT4
CLKC3
CLKT3
CLKC2
CLKT1
CLKC1
CLKT2
LD*
PLL bypass
CLKC2
CLKT3
CLKC3
CLKT4
CLKC4
CLK_INT
CLK_INC
FB_OUTT
FB_OUTC
10K-100k
PLL
GND
FB_INT
FB_INC
* The Logic Detect (LD) powers down the device when a
logic low is applied to both CLK_INT and CLK_INC.
1202—06/30/06
ADVANCE INFORMATION documents contain information on products in the formative or design phase development. Characteristic data and other specifications are design goals.
ICS reserves the right to change or discontinue these products without notice. Third party brands and names are the property of their respective owners.
ICS97U2A845A
Advance Information
Pin Descriptions
Te r m i n a l
Name
Electrical
Characteristics
Description
AGND
Analog Ground
Ground
AVDD
A n a l o g p ow e r
1.8 V nominal
CLK_INT
Clock input with a (10K-100K Ohm) pulldown resistor
Differential input
CLK_INC
Complentar y clock input with a (10K-100K Ohm) pulldown resistor
Differential input
FB_INT
Feedback clock input
Differential input
FB_INC
Complementary feedback clock input
Differential input
FB_OUTT
Feedback clock output
Differential output
FB_OUTC
Complementary feedback clock output
Differential output
OE
Output Enable (Asynchronous)
LVCMOS input
OS
Output Select (tied to GND or VDDQ)
LVCMOS input
GND
Ground
Ground
VDDQ
Logic and output power
1.8V nominal
CLKT[0:4]
Clock outputs
Differential outputs
CLKC[0:4]
Complementary clock outputs
Differential outputs
NB
No ball
The PLL clock buffer, ICS97U2A845A, is designed for a VDDQ of 1.8 V, a AVDD of 1.8 V and differential data input and
output levels. Package options include a plastic 28-ball VFBGA.
ICS97U2A845A is a zero delay buffer that distributes a differential clock input pair (CLK_INT, CLK_INC) to five
differential pair of clock outputs (CLKT[0:4], CLKC[0:4]) and one differential pair feedback clock outputs (FB_OUTT,
FBOUTC). The clock outputs are controlled by the input clocks (CLK_INT, CLK_INC), the feedback clocks (FB_INT,
FB_INC), the LVCMOS program pins (OE, OS) and the Analog Power input (AVDD). When OE is low, the outputs (except
FB_OUTT/FB_OUTC) are disabled while the internal PLL continues to maintain its locked-in frequency. OS (Output
Select) is a program pin that must be tied to GND or VDDQ. When OS is high, OE will function as described above. When
OS is low, OE has no effect on CLKT3/CLKC3 (they are free running in addition to FB_OUTT/FB_OUTC). When AVDD
is grounded, the PLL is turned off and bypassed for test purposes.
When both clock signals (CLK_INT, CLK_INC) are logic low, the device will enter a low power mode. An input logic
detection circuit on the differential inputs, independent from the input buffers, will detect the logic low level and perform
a low power state where all outputs, the feedback and the PLL are OFF. When the inputs transition from both being logic
low to being differential signals, the PLL will be turned back on, the inputs and outputs will be enabled and the PLL
will obtain phase lock between the feedback clock pair (FB_INT, FB_INC) and the input clock pair (CLK_INT, CLK_INC)
within the specified stabilization time tSTAB.
The PLL in ICS97U2A845A clock driver uses the input clocks (CLK_INT, CLK_INC) and the feedback clocks (FB_INT,
FB_INC) to provide high-performance, low-skew, low-jitter output differential clocks (CLKT[0:4], CLKC[0:4]).
ICS97U2A845A is also able to track Spread Spectrum Clocking (SSC) for reduced EMI.
ICS97U2A845A is characterized for operation from 0°C to 70°C.
1202—06/30/06
2
ICS97U2A845A
Advance Information
Function Table
Inputs
Outputs
PLL
AVDD
OE
OS
CLK_INT
CLK_INT
CLKT
CLKC
FB_OUTT
FB_OUTC
GND
H
X
L
H
L
H
L
H
Bypassed/Off
GND
H
X
H
L
H
L
H
L
Bypassed/Off
GND
L
H
L
H
*L(Z)
*L(Z)
L
H
Bypassed/Off
GND
L
L
H
L
*L(Z),
CLKT3
active
*L(Z),
CLKC3
active
H
L
Bypassed/Off
1.8V(nom)
L
H
L
H
*L(Z)
*L(Z)
L
H
On
1.8V(nom)
L
L
H
L
*L(Z),
CLKT3
active
*L(Z),
CLKC3
active
H
L
On
1.8V(nom)
H
X
L
H
L
H
L
H
On
1.8V(nom)
H
X
H
L
H
L
H
L
On
1.8V(nom)
X
X
L
L
*L(Z)
*L(Z)
*L(Z)
*L(Z)
Off
1.8V(nom)
X
X
H
H
Reser ved
*L(Z) means the outputs are disabled to a low stated meeting the IODL limit.
1202—06/30/06
3
ICS97U2A845A
Advance Information
Absolute Maximum Ratings
Supply Voltage (VDDQ & AVDD) . . . . . . . . .
Logic Inputs . . . . . . . . . . . . . . . . . . . . . . . . .
Ambient Operating Temperature . . . . . . . . . .
Storage Temperature . . . . . . . . . . . . . . . . . . .
-0.5V to 2.5V
GND - 0.5V to VDDQ + 0.5V
0°C to +70°C
-65°C to +150°C
Stresses above those listed under Absolute Maximum Ratings may cause permanent damage to the device. These
ratings are stress specifications only and functional operation of the device at these or any other conditions above those
listed in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions
for extended periods may affect product reliability.
Electrical Characteristics - Input/Supply/Common Output Parameters
TA = 0 - 70°C; Supply Voltage AVDDQ, VDDQ = 1.8 V +/- 0.1V (unless otherwise stated)
PARAMETER
SYMBOL
CONDITIONS
MIN
TYP
Input High Current
I IH
V I = VDDQ or GND
(CLK_INT, CLK_INC)
Input Low Current (OE,
V I = VDDQ or GND
I IL
OS, FB_INT, FB_INC)
Output Disabled Low
OE = L, V ODL = 100mV
100
IODL
Current
Operating Supply
IDD1.8 CL = 0pf @ 270MHz
Current
I DDLD CL = 0pf
Input Clamp Voltage
V IK
V DDQ = 1.7V Iin = -18mA
High-level output
VDDQ - 0.2
I OH = -100 ÷A
V OH
voltage
I OH = -18 mA
1.1
1.45
0.25
I OL=100 ÷A
Low-level output voltage
V OL
I OL=18 mA
1
C
V
2
Input Capacitance
IN
I = GND or VDDQ
1
COUT V OUT = GND or V DDQ
2
Output Capacitance
1
Guaranteed by design, not 100% tested in production.
1202—06/30/06
4
MAX
UNITS
±250
µA
±10
µA
µA
300
500
-1.2
0.10
0.6
3
3
mA
µA
V
V
V
V
V
pF
pF
ICS97U2A845A
Advance Information
Recommended Operating Condition (see note1)
TA = 0 - 70°C; Supply Voltage AVDD, VDDQ = 1.8 V +/- 0.1V (unless otherwise stated)
PARAMETER
Supply Voltage
SYMBOL
V DDQ, AVDD
Low level input voltage
VIH
DC input signal voltage
(note 2)
A
B
C
D
E
F
G
H
J
K
1
CLKT1
CLKC1
CLKC2
CLKT2
CLK_INT
CLK_INC
AG ND
AVDD
CLKT3
CLKC3
2
CLKT0
G ND
G ND
VDDQ
VDDQ
VDDQ
VDDQ
G ND
G ND
CLKC4
UNITS
V
0.35 x V DDQ
V
0.35 x V DDQ
V
V
V
V
0.3
V DDQ + 0.4
V
0.6
V DDQ + 0.4
V
VOX
VDDQ/2 - 0.10
V DDQ/2 + 0.10
V
VIX
VDDQ/2 - 0.15 VDD/2 V DDQ2 + 0.15
V
DC - CLK_INT, CLK_INC,
FB_INC, FB_INT
AC - CLK_INT, CLK_INC,
FB_INC, FB_INT
IOH
IOL
0
TA
3
CLKC0
G ND
NB
VDDQ
NB
NB
VDDQ
NB
G ND
CLKT4
MAX
1.9
V DDQ + 0.3
VID
Output differential crossvoltage (note 4)
Input differential crossvoltage (note 4)
High level output current
Low level output current
Operating free-air
temperature
TYP
1.8
-0.3
VIN
Differential input signal
voltage (note 3)
MIN
1.7
CLK_INT, CLK_INC, FB_INC,
FB_INT
OE, OS
CLK_INT, CLK_INC, FB_INC,
0.65 x VDDQ
FB_INT
OE, OS
0.65 x VDDQ
V IL
High level input voltage
CONDITIONS
4
CLKC5
G ND
NB
VDDQ
NB
NB
VDDQ
NB
G ND
CLKT9
5
CLKT5
G ND
G ND
OS
VDDQ
OE
VDDQ
G ND
G ND
CLKC9
6
CLKT6
CLKC6
CLKC7
CLKT7
FB_INT
FB_INC
FB_O UTC
FB_O UTT
CLKT8
CLKC8
Notes:
1. Unused inputs must be held high or low to prevent them from floating.
2. DC input signal voltage specifies the allowable DC execution of differential input.
3. Differential inputs signal voltages specifies the differential voltage [VTR-VCP]
required for switching, where VTR is the true input level and VCP is the
complementary input level.
4. Differential cross-point voltage is expected to track variations of VDDQ and is the
voltage at which the differential signal must be crossing.
1202—06/30/06
5
-18
18
mA
mA
70
°C
ICS97U2A845A
Advance Information
Timing Requirements
TA = 0 - 70°C Supply Voltage AVDD, VDDQ = 1.8 V +/- 0.1V (unless otherwise stated)
CONDITIONS
PARAMETER
SYMBOL
MIN
MAX
UNITS
Max clock frequency
freqop
1.8V+0.1V @ 25°C
95
410
MHz
Application Frequency Range
freqApp
1.8V+0.1V @ 25°C
160
410
MHz
40
60
%
15
µs
Input clock duty cycle
CLK stabilization
dtin
TSTAB
NOTE: The PLL must be able to handle spread spectrum induced skew.
NOTE: Operating clock frequency indicates a range over which the PLL must be able to lock, but in which it is not
required to meet the other timing parameters. (Used for low speed system debug.)
NOTE: Application clock frequency indicates a range over which the PLL must meet all timing parameters.
NOTE: Stabilization time is the time required for the integrated PLL circuit to obtain phase lock of its feedback
signal to its reference signal, within the value specificied by the Static Phase Offset (t(Æ ), after power-up. During
normal operation, the stabilization time is also the time required for the integrated PLL circuit to obtain phase lock
of its feedback signal to its reference signal when CK and CK go to a logic low state, enter the power-down mode
and later return to active operation. CK and CK may be left floating after they have been driven low for one
complete clock cycle.
Switching Characteristics1
TA = 0 - 70°C Supply Voltage AVDD, VDDQ = 1.8 V +/- 0.1V (unless otherwise stated)
PARAMETER
CONDITION
(MHz)
SYMBOL
ten
Output enable time
OE to any output
160 to 410
tdis
OE to any output
Output disable time
160 to 270
tjit (per)
Period jitter
271 to 410
160 to 270
tjit(hper)
Half-period jitter
271 to 410
Input Clock
Input slew rate
SLr1(i)
Output Enable (OE), (OS)
Output clock slew rate
160 to 410
SLr1(o)
tjit(cc+)
Cycle-to-cycle period jitter
tjit(cc-)
160 to 270
t(Ø)dyn
Dynamic Phase Offset
271 to 410
2
Static Phase Offset
271 to 410
tSPO
∑(su)
t jit (per) + t (Ø)dyn + t skew(o)
t(Ø)dyn + tskew(o)
∑t (h)
160 to 270
tskew
Output to Output Skew
271 to 410
SSC modulation frequency
SSC clock input frequency
deviation
PLL Loop bandwidth (-3 dB
from unity gain)
1202—06/30/06
6
MIN
30.00
3
40
-40
50
20
50
80
60
40
30
33
UNITS
ns
ns
ps
ps
ps
ps
v/ns
v/ns
v/ns
ps
ps
ps
ps
ps
ps
ps
ps
ps
kHz
0.00
-0.50
%
-40
-30
-60
-50
1
0.5
1.5
0
0
-50
-20
-50
2.0
TYP
4.73
5.82
2.5
2.5
0
MAX
8
8
40
30
60
50
4
MHz
ICS97U2A845A
Advance Information
Parameter Measurement Information
VDD
V(CLKC)
V(CLKC)
ICS97U2A845
GND
Figure 1. IBIS Model Output Load
VDD/2
C = 10 pF - GND
ICS97U2A845
R = 10Ω
Z = 60Ω
SCOPE
Z = 50Ω
Z = 2.97"
R = 1MΩ
V(TT) C = 1 pF
Z = 120Ω
R = 10Ω
Z = 60Ω
Z = 50Ω
Z = 2.97"
R = 1MΩ
V(TT) C = 1 pF
C = 10 pF
Note: VTT = GND
GND
-VDD/2
Figure 2. Output Load Test Circuit
YX, FB_OUTC
YX, FB_OUTT
tc(n)
tc(n+1)
tjit(cc) = tc(n) ± tc(n+1)
Figure 3. Cycle-to-Cycle Jitter
1202—06/30/06
7
ICS97U2A845A
Advance Information
Parameter Measurement Information
CLK_INC
CLK_INT
FB_INC
FB_INT
t( ) n
n=N
t( ) n
1
t( )=
N
(N is a large number of samples)
Figure 4. Static Phase Offset
YX#
YX
YX, FB_OUTC
YX, FB_OUTT
t(skew)
Figure 5. Output Skew
YX, FB_OUTC
YX, FB_OUTT
tC(n)
YX, FB_OUTC
YX, FB_OUTT
1
fO
t(jit_per) = tc(n) - 1
fO
Figure 6. Period Jitter
1202—06/30/06
8
t ( ) n+1
ICS97U2A845A
Advance Information
Parameter Measurement Information
YX, FB_OUTC
YX, FB_OUTT
t jit(hper_n+1)
t jit(hper_n)
1
fo
tjit(hper) = t jit(hper_n)
-
1
2xfO
Figure 7. Half-Period Jitter
80%
80%
VID, VOD
Clock Inputs
and Outputs
20%
20%
tslr
tslf
Figure 8. Input and Output Slew Rates
1202—06/30/06
9
ICS97U2A845A
Advance Information
CK
CK
FBIN
FBIN
t(
t(
)
SSC OFF
SSC ON
t(
)
SSC OFF
SSC ON
t(
)dyn
t(
)dyn
t(
)dyn
Figure 9. Dynamic Phase Offset
50% VDDQ
OE
t en
Y
50% VDDQ
Y
Y/ Y
OE
50% VDDQ
t dis
Y
50 % VDDQ
Y
Figure 10. Time delay between OE and Clock Output (Y, Y)
1202—06/30/06
10
)dyn
ICS97U2A845A
Advance Information
Figure 11. AVDD Filtering
- Place the 2200pF capacitor close to the PLL.
- Use a wide trace for the PLL analog power & ground. Connect PLL & caps to AGND trace & connect trace to one
GND via (farthest from PLL).
- Recommended bead: Fair-Rite P/N 2506036017Y0 or equivalent (0.8 Ohm DC max, 600 Ohms @ 100 MHz).
1202—06/30/06
11
ICS97U2A845A
Advance Information
SYMBOL
A
A1
A2
A3
b
D
D1
E
E1
e
MIN
0.80
0.165
0.16
0.475
0.35
3.90
4.40
Millimeter
NOM
0.90
0.20
0.20
0.50
0.40
4.00
2.60 BSC
4.50
3.25 BSC
0.65 BSC
MAX
1.00
0.235
0.24
0.525
0.45
4.10
MIN
0.031
0.006
0.006
0.019
0.014
0.154
4.60
0.173
Inch
NOM
0.035
0.008
0.008
0.020
0.016
0.157
0.102 BSC
0.177
0.128 BSC
0.026 BSC
MAX
0.039
0.009
0.009
0.021
0.018
0.161
0.181
Ordering Information
ICS97U2A845AH(LF)-T
Example:
ICS XXXX y H (LF)- T
Designation for tape and reel packaging
Lead Free, RoHS Compliant
Package Type
H = BGA
Revision Designator (will not correlate with datasheet revision)
Device Type
Prefix
ICS = Standard Device
1202—06/30/06
12
ICS97U2A845A
Advance Information
Revision History
Rev.
0.1
0.2
Issue Date Description
2/22/2006 Initial Release
6/30/2006 Updated Electrical Characteristics.
1202—06/30/06
13
Page #
4-5