ICS950812
IDTTM Frequency Generator with 200MHz Differential CPU Clocks 0542J—01/25/10
Frequency Generator with 200MHz Differential
CPU Clocks
1
DATASHEET
Pin Configuration
Recommended Application:
CK-408 clock with Buffered/Unbuffered mode supporting
Almador, Brookdale, ODEM, and Montara-G chipsets with PIII/
P4 processor. Programmable for group to group skew.
Output Features:
3 0.7V Differential CPU Clock Pairs
7 PCI (3.3V) @ 33.3MHz including 2 early PCI clocks
3 PCI_F (3.3V) @ 33.3MHz
1 USB (3.3V) @ 48MHz, 1 DOT (3.3V) @ 48MHz
1 REF (3.3V) @ 14.318MHz
5 3V66 (3.3V) @ 66.6MHz
1 VCH/3V66 (3.3V) @ 48MHz or 66.6MHz
3 66MHz_OUT/3V66 (3.3V) @ 66.6MHz_IN or 66.6MHz
Features:
Provides standard frequencies and additional 5%
and 10% over-clocked frequencies
Supports spread spectrum modulation:
No spread, Center Spread (±0.35%, ±0.5%,
or ±0.75%), or Down Spread (-0.5%, -1.0%, or -1.5%)
Offers adjustable PCI early clock via latch inputs
Selectable 1X or 2X strength for REF via I2C interface
Efficient power management scheme through PD#,
CPU_STOP# and PCI_STOP#.
Uses external 14.318MHz crystal
Stop clocks and functional control available through
I2C interface.
Key Specifications:
CPU Output Jitter <150ps
3V66 Output Jitter <250ps
66MHz Output Jitter (Additive) (Buffered Mode) <100ps
CPU Output Skew <100ps Note:
Almador board level designs MUST use pin 22,
66MHZ_OUT1, as the feedback connection from the clock
buffer path to the Almador (GMCH) chipset.
VDDREF 1 56 REF
X1 2 55 FS1
X2 3 54 FS0
GND 4 53 CPU_STOP#*
PCICLK_F0 5 52 CPUCLKT0
PCICLK_F1 651
CPUCLKC0
PCICLK_F2 7 50 VDDCPU
VDDPCI 8 49 CPUCLKT1
GND 9 48 CPUCLKC1
PCICLK0 10 47 GND
**E_PCICLK1/PCICLK1 11 46 VDDCPU
PCICLK2 12 45 CPUCLKT2
**E_PCICLK3/PCICLK3 13 44 CPUCLKC2
VDDPCI 14 43 MULTSEL*
GND 15 42 IREF
PCICLK4 16 41 GND
PCICLK5 17 40 FS2
PCICLK6 18 39 48MHz_USB/FS3**
VDD3V66 19 38 48MHz_DOT
GND 20 37 VDD48
66MHZ_OUT0/3V66_2 21 36 GND
66MHZ_OUT1/3V66_3 22 35 3V66_1/VCH_CLK/FS4**
66MHZ_OUT2/3V66_4 23 34 PCI_STOP#*
66MHZ_IN/3V66_5 24 33 3V66_0/FS5**
*PD# 25 32 VDD3V66
VDDA 26 31 GND
GND 27 30 SCLK
Vtt_PWRGD# 28 29 SDATA
56-Pin 300mil SSOP
6.10 mm. Body, 0.50 mm. pitch TSSOP
*These inputs have 120K internal pull-up resistors to VDD.
**Internal pull-down resistors to ground.
ICS950812
Block Diagram
PLL2
PLL1
Spread
Spectrum
3V66_5/66MHz_IN
3V66_3/66MHz_OUT1
3V66_(4,2)/66MHz_OUT(2,0)
48MHz_USB
48MHz_DOT
X1
X2
XTAL
OSC
3V66
DIVDER
PD#
CPU_STOP#
PCI_STOP#
MULTSEL
S D ATA
SCLK
FS (5:0)
I REF
Control
Logic
Config.
Reg.
REF
3V66_0
CPU
DIVDER
3
3
CPUCLKT (2:0)
CPUCLKC (2:0)
Stop
3V66_1/VCH_CLK
PCICLK (6:4, 2, 0)
PCI
DIVDER
3
7
PCICLK_F (2:0)
Stop
E_PCICLK(1,3)/PCICLK(1,3)
2
V
TT
_PWRGD#
Frequency Select
66MHz_OU
T
(
2:0
)
66MHz_IN PCICLK_F
3V66 (4:2) 3V66_5 PCICLK
FS2 FS1 FS0 MHz MHz MHz MHz MHz
0 0 0 66.66 66.66 66.66 66.66 33.33
0 0 1 100.00 66.66 66.66 66.66 33.33
0 1 0 200.00 66.66 66.66 66.66 33.33
0 1 1 133.33 66.66 66.66 66.66 33.33
1 0 0 66.66 66.66 66MHz_IN Input 66MHz_IN/2
1 0 1 100.00 66.66 66MHz_IN Input 66MHz_IN/2
1 1 0 200.00 66.66 66MHz_IN Input 66MHz_IN/2
1 1 1 133.33 66.66 66MHz_IN Input 66MHz_IN/2
CPUCLK 3V66Bit
IDTTM Frequency Generator with 200MHz Differential CPU Clocks 0542J—01/25/10
ICS950812
Frequency Generator with 200MHz Differential CPU Clocks
2
Pin Description
PIN # PIN NAME PIN TYPE DESCRIPTION
1 VDDREF PWR Ref, XTAL power supply, nominal 3.3V
2 X1 IN Crystal input, Nominally 14.318MHz.
3 X2 OUT Crystal output, Nominally 14.318MHz
4 GND PWR Ground pin.
5 PCICLK_F0 OUT Free running PCI clock not affected by PCI_STOP# .
6 PCICLK_F1 OUT Free running PCI clock not affected by PCI_STOP# .
7 PCICLK_F2 OUT Free running PCI clock not affected by PCI_STOP# .
8 VDDPCI PWR Power supply for PCI clocks, nominal 3.3V
9 GND PWR Ground pin.
10 PCICLK0 OUT PCI clock output.
11 **E_PCICLK1/PCICLK1 I/O Early/Normal PCI clock output latched at power up.
12 PCICLK2 OUT PCI clock output.
13 **E_PCICLK3/PCICLK3 I/O Early/Normal PCI clock output latched at power up.
14 VDDPCI PWR Power supply for PCI clocks, nominal 3.3V
15 GND PWR Ground pin.
16 PCICLK4 OUT PCI clock output.
17 PCICLK5 OUT PCI clock output.
18 PCICLK6 OUT PCI clock output.
19 VDD3V66 PWR Power pin for the 3V66 clocks.
20 GND PWR Ground pin.
21 66MHZ_OUT0/3V66_2 OUT 3.3V 66.66MHz clock output selected via buffered or internal VCO.
22 66MHZ_OUT1/3V66_3 OUT 3.3V 66.66MHz clock output selected via buffered or internal VCO.
23 66MHZ_OUT2/3V66_4 OUT 3.3V 66.66MHz clock output selected via buffered or internal VCO.
24 66MHZ_IN/3V66_5 I/O 3.3V 66.66MHz clock from internal VCO, 66MHZ input to 66MHz output and
PCI.
25 *PD# IN
Asynchronous active low input pin used to power down the device into a low
power state. The internal clocks are disabled and the VCO and the crystal
are stopped. The latency of the power down will not be greater than 1.8ms.
26 VDDA PWR 3.3V power for the PLL core.
27 GND PWR Ground pin.
28 Vtt_PWRGD# IN
This 3.3V LVTTL input is a level sensitive strobe used to determine when
latch inputs are valid and are ready to be sampled. This is an active low
input.
IDTTM Frequency Generator with 200MHz Differential CPU Clocks 0542J—01/25/10
ICS950812
Frequency Generator with 200MHz Differential CPU Clocks
3
Pin Description (continued)
PIN # PIN NAME PIN TYPE DESCRIPTION
29 SDATA I/O Data pin for I2C circuitry 5V tolerant
30 SCLK IN Clock pin of I2C circuitry 5V tolerant
31 GND PWR Ground pin.
32 VDD3V66 PWR Power pin for the 3V66 clocks.
33 3V66_0/FS5** I/O Frequency select latch input pin / 3.3V 66.66MHz clock output.
34 PCI_STOP#* IN Stops all PCICLKs besides the PCICLK_F clocks at logic 0 level, when input
low
35 3V66_1/VCH_CLK/FS4** I/O Frequency select latch input pin / 3.3V 66.66MHz clock output / 48MHz
VCH clock output.
36 GND PWR Ground pin.
37 VDD48 PWR Power pin for the 48MHz output.3.3V
38 48MHz_DOT OUT 48MHz clock output.
39 48MHz_USB/FS3** I/O Frequency select latch input pin / 3.3V 48MHz clock output.
40 FS2 IN Frequency select pin.
41 GND PWR Ground pin.
42 IREF OUT
This pin establishes the reference current for the differential current-mode
output pairs. This pin requires a fixed precision resistor tied to ground in
order to establish the appropriate current. 475 ohms is the standard value.
43 MULTSEL* IN 3.3V LVTTL input for selection the current multiplier for CPU outputs
44 CPUCLKC2 OUT Complimentary clock of differential pair CPU outputs. These are current
mode outputs. External resistors are required for voltage bias.
45 CPUCLKT2 OUT True clock of differential pair CPU outputs. These are current mode
outputs. External resistors are required for voltage bias.
46 VDDCPU PWR Supply for CPU clocks, 3.3V nominal
47 GND PWR Ground pin.
48 CPUCLKC1 OUT Complimentary clock of differential pair CPU outputs. These are current
mode outputs. External resistors are required for voltage bias.
49 CPUCLKT1 OUT True clock of differential pair CPU outputs. These are current mode
outputs. External resistors are required for voltage bias.
50 VDDCPU PWR Supply for CPU clocks, 3.3V nominal
51 CPUCLKC0 OUT Complimentary clock of differential pair CPU outputs. These are current
mode outputs. External resistors are required for voltage bias.
52 CPUCLKT0 OUT True clock of differential pair CPU outputs. These are current mode
outputs. External resistors are required for voltage bias.
53 CPU_STOP#* IN Stops all CPUCLK besides the free running clocks
54 FS0 IN Frequency select pin.
55 FS1 IN Frequency select pin.
56 REF OUT 14.318 MHz reference clock.
IDTTM Frequency Generator with 200MHz Differential CPU Clocks 0542J—01/25/10
ICS950812
Frequency Generator with 200MHz Differential CPU Clocks
4
Frequency Select Table 2
Fr equency Sel e ct Table 1
66MHz_OU
T (2:0) 66MHz_IN
FS
2
FS
1
FS
03V66 (4:2) 3V66 _5
0 0 0 66.66 66.66 66.66 66.66 33.33 14.318 48.008
0 0 1 100.00 66.66 66.66 66.66 33.33 14.318 48.008
0 1 0 200.00 66.66 66.66 66.66 33.33 14.318 48.008
0 1 1 133.33 66.66 66.66 66.66 33.33 14.318 48.008
1 0 0 66.66 66.66 66MHz_IN Input 66MHz_IN/2 14.318 48.008
1 0 1 100.00 66.66 66MHz_IN Input 66MHz_IN/2 14.318 48.008
1 1 0 200.00 66.66 66MHz_IN Input 66MHz_IN/2 14.318 48.008
1 1 1 133.33 66.66 66MHz_IN Input 66MHz_IN/2 14.318 48.008
0 0 0 70.00 70.00 70.00 70.00 35.00 14.318 48.008
0 0 1 105.00 70.00 70.00 70.00 35.00 14.318 48.008
0 1 0 Tristate Tristate Tristate Tristate Tristate Tristate Tristate Tristate
0 1 1 140.00 70.00 70.00 70.00 35.00 14.318 48.008
1 0 0 70.00 70.00 66MHz_IN Input 66MHz_IN/2 14.318 48.008
1 0 1 105.00 70.00 66MHz_IN Input 66MHz_IN/2 14.318 48.008
1 1 0 Tristate Tristate Tristate Tristate Tristate Tristate Tristate Tristate
1 1 1 140.00 70.00 66MHz_IN Input 66MHz_IN/2 14.318 48.008 5% Overclocking
0 0 0 73.32 73.32 73.32 73.32 36.66 14.318 48.008
0 0 1 110.00 73.32 73.32 73.32 36.66 14.318 48.008
0 1 0 Test/2 Test/4 Test/4 Test/4 Test/8 Test Test/2 Test
0 1 1 146.60 73.32 73.32 73.32 36.66 14.318 48.008
1 0 0 73.32 73.32 66MHz_IN Input 66MHz_IN/2 14.318 48.008
1 0 1 110.00 73.32 66MHz_IN Input 66MHz_IN/2 14.318 48.008
1 1 0 Test/2 Test/4 Test/4 Test/4 Test/8 Test Test/2 Test
1 1 1 146.60 73.32 66MHz_IN Input 66MHz_IN/2 14.318 48.008 10% Overclocking
10% Overclocking
10% Overclocking
Standard Clocking
Standard Clocking
5% Overclocking
5% Overclocking
110
(See table 2)
111
(See table 2)
REF MHz USB/DOT
MHz Clocking Mode
Freq Sel
CPU MHz 3V66 MHz
FS(5:3)
PCI MHz
From
000
to
101
(See table 2)
FS
5
FS
4
FS
3
000
001
010
011
100
101
110
111 +/-0.35%, Center Spread
0 to -1.5%, Down Spread
+/-0.5%, Center Spread
+/-0.75%, Center Spread
+/-0.35%, Center Spread
10% Overclocking
Clocking Mode
No Spread (default)
or +/-0.4%
0 to -0.5%, Down Spread
0 to -1.0%, Down SpreadStandard Clocking
Standard Clocking
Standard Clocking
Standard Clocking
CPU, 3V66, 66MHz_OUT,
66MHz_IN, PCI
5% Overclocking
Freq Sel
Standard Clocking
Standard Clocking
Note: To enable spread, Byte 0 Bit 7 must be set to 1.
IDTTM Frequency Generator with 200MHz Differential CPU Clocks 0542J—01/25/10
ICS950812
Frequency Generator with 200MHz Differential CPU Clocks
5
Maximum Allowed Current
Host Swing Select Functions
MULTSEL
0
1
PCI Select Functions
Note:
* Approximate values
Max 3.3V supply consumption
Max discrete cap loads,
Vdd = 3.465V
All static in
p
uts = Vdd or GND
40mA
280mA
Condition
Powerdown Mode
(PD# = 0)
Active Full
Board Target
Trace/Term Z
Reference R,
Iref = VDD/3*Rr
Rr = 221 1%,
Iref = 5.00mA
Rr = 475 1%,
Iref = 2.32mA
50 ohms
50 ohms
Output
Current
Ioh = 4 * I REF
Ioh = 6 * I REF
1.0V @ 50 ohm
0.7V @ 50 ohm
Voh @ Z
E_PCICLK1 (11) E_PCICLK3 (13) E_PCICLK(3,1)*
E_PCICLK1 = 10Kohm resistor.
0 0 0ns
0 1 0.5ns
1.0ns
1 1 1.5ns
E_PCICLK3 = 10Kohm resistor.
0 = No resistor
1 = 10Kohm pull-up to VD
D
.
10
IDTTM Frequency Generator with 200MHz Differential CPU Clocks 0542J—01/25/10
ICS950812
Frequency Generator with 200MHz Differential CPU Clocks
6
Table 3
PCI_STOP# I2C Control Table-Byte 0, Bit 3
Note: When this B
y
te 0, Bit 3 is low (0), all PCI clocks are stopped.
Table 4
CPUCLKT/C (2:0) Outputs I2C Control Table
Note: Individual CPUCLK outputs are controlled by Byte 1, Bit 3, 4, and 5.
Table 5
PCICLK_F (2:0) Outputs I2C Control Table
Note: Individual PCICLK outputs are controlled b
y
B
y
te 3, Bit 3, 4, and 5.
Table 6
3V66 (5:2)/66MHz_OUT(2:0)/66MHz_IN I2C Control Table
Note: Activating Byte 5, Bit 5 will allow CPU_STOP# to control stop of pins 21, 22, 23, and 24.
CPU_STOP#
(Pin 53)
Byte 5
Bit 5
3V66 (5:2) (Driven)
66MHZ_OUT(2:0)/66MHZ_IN (Buffered)
01
10
1`1
Byte 0, Bit 3 Read Bit
(Internal Status)
0
0
0
1
PCI_STOP#
(Pin 34)
CPU_STOP#
(
Pin 53
)
Byte 1
Bit 3, 4, 5
Byte 0 Bit 3
Write Bit
00
CPUCLKT/C (2:0) Outputs
00 Stop
01 Running
10 Running
11 Running
PCI_STOP#
(
Pin 34
)
Byte 3
Bit 3
,
4
,
5 PCICLK (2:0) Outputs
00 Stop
01 Running
10 Running
11 Running
Running
Running
00
01
Running
Stopped
10
11
IDTTM Frequency Generator with 200MHz Differential CPU Clocks 0542J—01/25/10
ICS950812
Frequency Generator with 200MHz Differential CPU Clocks
7
FS5FS4FS3FS1FS0 Freq Center
Down 11 12 13 14 11 12 13 14
000000 66.66 Center 0 .4 0% 8D 9B 02 18 100 01 10 1 10011 01 1 000 00 01 0 00011 00 0
100001 99.99 Center 0 .4 0% 8D 9B 02 18 100 01 10 1 10011 01 1 000 00 01 0 00011 00 0
200010 199.98 Cent e r 0. 4 0% 8D 9B 02 18 100 01101 1 001101 1 00000 010 000 1100 0
300011 133.32 Cent e r 0. 4 0% 8D 9B 02 18 100 01101 1 001101 1 00000 010 000 1100 0
400100 66.50 Down -0.48% 8D 9A E F 17 10001101 10011010 11101111 00010111
500101 99.75 Down -0.48% 8D 9A E F 17 10001101 10011010 11101111 00010111
600110 199.50 Down -0. 48% 8D 9A E F 17 10001101 10011010 11101111 00010111
700111 133.00 Down -0. 48% 8D 9A E F 17 10001101 10011010 11101111 00010111
801000 66.34 Down -0.98% 8D 99 E7 17 10001101 10011001 11100111 00010111
901001 99.51 Down -0.98% 8D 99 E7 17 10001101 10011001 11100111 00010111
1001010 199.02 Down -0.98% 8D 99 E 7 17 10001101 10011001 11100111 00010111
1101011 132.68 Down -0.98% 8D 99 E 7 17 10001101 10011001 11100111 00010111
1201100 66.16 Down -1. 52% 90 EB DD 17 10010000 11101011 11011101 00010111
1301101 99.23 Down -1. 52% 90 EB DD 17 10010000 11101011 11011101 00010111
1401110 198.47 Down -1.52% 90 EB DD 17 10010000 11101011 11011101 00010111
1501111 132.31 Down -1.52% 90 EB DD 17 10010000 11101011 11011101 00010111
1610000 66.66 Center 0 .51% 8D 9B 05 18 1 00 01 101 100 11 01 1 000 00 101 000 11 00 0
1710001 99.99 Center 0 .51% 8D 9B 05 18 1 00 01 101 100 11 01 1 000 00 101 000 11 00 0
1810010 199.98 Center 0 . 51% 8D 9B 05 18 1000110 1 10011 011 000 0010 1 00 011 000
1910011 133.32 Center 0 . 51% 8D 9B 05 18 1000110 1 10011 011 000 0010 1 00 011 000
2010100 66.66 Center 0 .74% 8D 9B 0B 18 10001 10 1 100 11 01 1 00001 01 1 000 11 00 0
2110101 99.99 Center 0 .74% 8D 9B 0B 18 10001 10 1 100 11 01 1 00001 01 1 000 11 00 0
2210110 199.98 Center 0 . 74% 8D 9B 0B 18 10001 101 100 1101 1 0 0001 011 000 11000
2310111 133.32 Center 0 . 74% 8D 9B 0B 18 10001 101 100 1101 1 0 0001 011 000 11000
2411000 70.00 Center 0 .35% 8D B0 35 19 100 01 10 1 101 1000 0 001 10 10 1 000 1100 1
2511001 105.00 Center 0 . 35% 8D B 0 35 19 1000110 1 10110 000 001 1010 1 00 011 001
2611010 210.00 Center 0 . 35% 8D B 0 35 19 1000110 1 10110 000 001 1010 1 00 011 001
2711011 140.00 Center 0 . 35% 8D B 0 35 19 1000110 1 10110 000 001 1010 1 00 011 001
2811100 73.33 Center 0 .34% 8 9 4 A 68 1A 1 00 0100 1 010 01 01 0 01101 00 0 000 11 01 0
2911101 109.99 Center 0 . 34% 89 4A 68 1A 1000100 1 0 1001 010 011 01000 00 01101 0
3011110 219.98 Center 0 . 34% 89 4A 68 1A 1000100 1 0 1001 010 011 01000 00 01101 0
3111111 146.65 Center 0 . 34% 89 4A 68 1A 1000100 1 0 1001 010 011 01000 00 01101 0
I2C read back values in Hex. Bytes I2C read back values i n binary.
SpreadCPUADDRESS
Table 8: Byte 11-14 Defaults
Table 7
3V66 (0:1) I2C Control Table
Note: Activating Byte 5, Bit 4 will allow CPU_STOP# to control stop of pins 33 and 35.
CPU_STOP#
(Pin 53)
Byte 5
Bit 4 3V66 (1:0)
0 0 Running
1 1 Running
0 1 Stopped
1 0 Running
IDTTM Frequency Generator with 200MHz Differential CPU Clocks 0542J—01/25/10
ICS950812
Frequency Generator with 200MHz Differential CPU Clocks
8
Absolute Maximum Ratings
Supply Voltage 5.5 V
Logic Inputs GND –0.5 V to VDD +0.5 V
Ambient Operating Temperature 0°C to +90°C
Case Temperature 115°C
Storage Temperature –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 - 90°C; Supply Voltage VDD = 3.3 V +/-5%
PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS
Input High Voltage VIH 2VDD+0.
3V
Input Low Voltage VIL
VSS-
0.3 0.8 V
IIH
VIN = VDD; Inputs with no pull-down
resistors 5.75 mA
IIH
VIN = VDD; Inputs with pull-down
resistors 200 µA
IIL1
VIN = 0 V; Inputs with no pull-up
resistors -5.75 mA
IIL2
VIN = 0 V; Inputs with pull-up
resistors -200 µA
IDD3.3OP CL = Full load; Select @ 100 MHz 233 280 mA
IDD3.3OP CL =Full load; Select @ 133 MHz 234 280 mA
IDD3.3PD IREF=5 mA 20 52 mA
IDD3.3PDHIz 0.289 0.5 mA
Input Frequency FiVDD = 3.3 V 14.32 MHz
Pin Inductance L
p
in 7nH
CIN Logic Inputs 5 pF
COUT Output pin capacitance 6 pF
CINX X1 & X2 pins 27 30 45 pF
Clk Stabilization1,2 TSTAB
From PowerUp or deassertion of
PowerDown to 1st clock. 12.1 ms
tPZH,tPZL Output enable delay (all outputs) 1 12 ns
tPHZ,tPLZ Output disable delay (all outputs) 1 12 ns
1Guaranteed by design, not 100% tested in production.
2See timing diagrams for buffered and un-buffered timing requirements.
Delay1
Input Capacitance1
Input High Current
Input Low Current
Operating Supply Current
Powerdown Current
IDTTM Frequency Generator with 200MHz Differential CPU Clocks 0542J—01/25/10
ICS950812
Frequency Generator with 200MHz Differential CPU Clocks
9
Electrical Characteristics - CPU (1V Select) 100MHz
TA = 0 - 90°C; VDD=3.3V +/-5%; CL = 10-20 pF (unless otherwise specified)
PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS
Current Source Output
Impedance Zo1 VO = Vx2500
Average Period TPERIO
Fig. 5 10.00 10.01 10.20 ns
Output High Voltage VOH3 0.92 1.45
Output Low Voltage VOL3 -0.2 0.35
Rise Time tr3 VOL = 0.41V, VOH = 0.86V (Fig. 6) 175 390 540 ps
Fall Time tf3 VOH = 0.86V VOL = 0.41V (Fig.6) 175 305 540 ps
Duty Cycle dt3 Fig. 5 45 51 55 %
Skew tsk3 V
T
= 50% 10 100 ps
Jitter, Cycle to cycle t
j
c
y
c-c
y
c1VT = 50% 40 175 ps
1Guaranteed b
y
desi
g
n, not 100% tested in production.
2 IOW
T
can be varied and is selectable thru the MULTSEL pin.
VMeasured from Single Ended Waveform
Electrical Characteristics - CPU (0.7V Select) 100MHz
TA = 0 - 90°C; VDD=3.3V +/-5%; (unless otherwise specified)
PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS
Current Source Output
Impedance Zo1 VO = Vx3000
Average Period TPERIO
D
Fig. 1 10.00 10.01 10.20 ns
Voltage High VHigh 660 720 850
Voltage Low VLow -150 15 150
Max Voltage Vovs 750 1150
Min Volta
g
eVuds -450-2
Crossin
g
Volta
g
e (abs) Vcross(abs) Fi
g
. 3 250 319 550 mV
Crossing Voltage (var) d-Vcross Variation of crossing over all edges (Fig. 4) 12 140 mV
Rise Time trVOL = 0.175V, VOH = 0.525V (Fig. 3) 175 310 810 ps
Fall Time tfVOH = 0.525V VOL = 0.175V (Fig. 3) 175 300 810 ps
Rise Time Variation d-tr10 125 ps
Fall Time Variation d-tf10 125 ps
Duty Cycle dt3 Measurement from differential wavefrom (Fig 1) 45 51 55 %
Skew tsk3 V
T
= 50% 16 100 ps
Jitter, Cycle to cycle tjcyc-cyc1VT = 50% (Fig. 1) 48 175 ps
1Guaranteed b
y
desi
g
n, not 100% tested in production.
2 IOW
T
can be varied and is selectable thru the MULTSEL pin.
mV
Statistical measurement on single ended signal
using oscilloscope math function.
Measurement on single ended signal using
absolute value. mV
IDTTM Frequency Generator with 200MHz Differential CPU Clocks 0542J—01/25/10
ICS950812
Frequency Generator with 200MHz Differential CPU Clocks
10
Electrical Characteristics - PCICLK Buffered Mode
TA = 0 - 90°C; VDD = 3.3V +/-5%; CL = 10-30 pF (unless otherwise specified)
PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS
Output Impedance RDSP11VO = VDD*(0.5) 12 33 65
Output High Voltage VOH1IOH = -1 mA 2.05 V
Output Low Voltage VOL1IOL = 1 mA 0.65 V
Output High Current IOH1VOH@MIN = 1.0V, VOH@MAX = 3.135V -33 -28 mA
Output Low Current IOL1VOL @MIN = 1.95V, VOL @MAX = 0.4V 26 38 mA
Rise Time tr11VOL = 0.4 V, VOH = 2.4 V (Fig. 7) 0.5 1.4 2.3 ns
Fall Time tf11VOH = 2.4 V, VOL = 0.4 V (Fig. 7) 0.5 1.2 2.3 ns
Duty Cycle dt11VT = 1.5 V 45 52 55 %
Skew tsk11VT = 1.5 V 35 500 ps
Jitter,cycle to cyc tjcyc-cyc1VT = 1.5 V (Additive) (Fig. 8) 60 120 ps
1Guaranteed by design, not 100% tested in production.
Electrical Characteristics - CPU (0.7V Select) 133.33MHz
TA = 0 - 90°C; VDD=3.3V +/-5%; (unless otherwise specified)
PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS
Current Source Output
Impedance Zo1 VO = Vx3000
Average Period TPERIOD Fig. 1 7.50 7.51 7.65 ns
Voltage High VHigh 660 718 850
Voltage Low VLow -150 17 150
Max Volta
g
e Vovs 730 1150
Min Voltage Vuds -450 7
Crossing Voltage (abs) Vcross(abs) Fig. 3 250 340 550 mV
Crossing Voltage (var) d-Vcross Variation of crossing over all edges (Fig. 4) 15 140 mV
Rise Time trVOL = 0.175V, VOH = 0.525V (Fig. 3) 175 310 810 ps
Fall Time tfVOH = 0.525V VOL = 0.175V (Fig. 3) 175 315 810 ps
Rise Time Variation d-tr5 125 ps
Fall Time Variation d-tf5 125 ps
Duty Cycle dt3 Measurement from differential wavefrom (Fig 1) 45 51 55 %
Skew tsk3 V
T
= 50% 14 100 ps
Jitter, Cycle to cycle tjcyc-cyc1VT = 50% (Fig. 1) 75 175 ps
1Guaranteed b
y
desi
g
n, not 100% tested in production.
2 IOW
T
can be varied and is selectable thru the MULTSEL pin.
Statistical measurement on single ended signal
using oscilloscope math function. mV
Measurement on single ended signal using
absolute value. mV
IDTTM Frequency Generator with 200MHz Differential CPU Clocks 0542J—01/25/10
ICS950812
Frequency Generator with 200MHz Differential CPU Clocks
11
Electrical Characteristics - PCICLK Un-Buffered Mode
TA = 0 - 90°C; VDD=3.3V +/-5%; CL = 10-30 pF (unless otherwise specified)
PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS
Output Impedance RDSP11VO = VDD*(0.5) 12 33 65
Average Period TPERIO
D
Fig. 8 30.00 30.01 ns
Output High Voltage VOH1IOH = -1 mA 2.05 V
Output Low Voltage VOL1IOL = 1 mA 0.65 V
Output High Current IOH1VOH@MIN = 1.0V, VOH@MAX = 3.135V -33 -28 mA
Output Low Current IOL1VOL @MIN
= 1.95 V, VOL @MAX = 0.4 V 26 38 mA
Rise Time tr11VOL = 0.4 V, VOH = 2.4 V (Fig. 7) 0.5 1.4 2.3 ns
Fall Time tf11VOH = 2.4 V, VOL = 0.4 V (Fig. 7) 0.5 1.2 2.3 ns
Duty Cycle dt11VT = 1.5 V (Fig. 8) 45 50 55 %
Skew tsk11VT = 1.5 V 65 500 ps
Jitter,cycle to cyc tjcyc-cyc1VT = 1.5 V (Fig. 8) 101 290 ps
1Guaranteed by design, not 100% tested in production.
Electrical Characteristics- 3V66 - Buffered Mode: 66MHz_OUT [2:0]
T
A
= 0 - 90°C; VDD=3.3V +/-5%; C
L
= 10-30 pF (unless otherwise specified)
PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS
Output Impedance R
DSP1
1
V
O
= V
DD
*(0.5) 12 33 65
Output High Voltage V
OH
1
I
OH
= -1 mA 2.05 V
Output Low Voltage V
OL
1
I
OL
= 1 mA 0.65 V
Output High Current I
OH
1
V
OH@MIN
= 1.0 V, V
OH@MAX
= 3.135 V -33 -28 mA
Output Low Current I
OL
1
V
OL @MIN
= 1.95 V, V
OL @MAX
= 0.4 V 26 38 mA
Rise Time t
r1
1
V
OL
= 0.4 V, V
OH
= 2.4 V (Fig. 7) 0.5 1.6 2.3 ns
Fall Time t
f1
1
V
OH
= 2.4 V, V
OL
= 0.4 V (Fig. 7) 0.5 1 2.3 ns
Duty Cycle d
t1
1
V
T
= 1.5 V (Fig. 8) 45 52 55 %
Jitter t
jcyc-cyc
1
V
T
= 1.5 V 66MHz_OUT [2:0] (Additive)
(
Fi
g
. 8
)
83 120 ps
Skew t
sk1
1
V
T
= 1.5 V 66MHz_OUT [2:0] 169 250 ps
1
Guaranteed by design, not 100% tested in production.
IDTTM Frequency Generator with 200MHz Differential CPU Clocks 0542J—01/25/10
ICS950812
Frequency Generator with 200MHz Differential CPU Clocks
12
Electrical Characteristics - 3V66 -Un-Buffered Mode: 3V66 [5:0]
TA = 0 - 90°C; VDD=3.3V +/-5%; CL = 10-30 pF (unless otherwise specified)
PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS
Output Impedance RDSP11VO = VDD*(0.5) 12 33 65
Average Period TPERIOD Fig. 8 15.00 15.01 15.30 ns
Output High Voltage VOH1IOH = -1 mA 2.05 V
Output Low Voltage VOL1IOL = 1 mA 0.65 V
Output High Current IOH1V OH@MIN = 1.0 V, V OH@MAX = 3.135 V -33 -28 mA
Output Low Current IOL1VOL @MIN = 1.95 V, VOL @MAX = 0.4 V 26 38 mA
Rise Time tr11VOL = 0.4 V, VOH = 2.4 V (Fig. 7) 0.5 1.6 2.3 ns
Fall Time tf11VOH = 2.4 V, VOL = 0.4 V (Fig. 7) 0.5 1.2 2.3 ns
Duty Cycle dt11VT = 1.5 V (Fig. 8) 45 48 55 %
Skew tsk11VT = 1.5 V 40 250 ps
Jitter tjcyc-cyc1VT = 1.5 V (Fig. 8) 133 290 ps
1Guaranteed by design, not 100% tested in production.
Electrical Characteristics - VCH, 48MHz DOT, 48MHz, USB
T
A
= 0 - 90°C; VDD=3.3V +/-5%; C
L
= 10-20 pF (unless otherwise specified)
PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS
Output Frequency F
O1
Fig. 8 48 MHz
Output Impedance R
DSP1
1
V
O
= V
DD
*(0.5) 20 48 70
Output High Voltage V
OH
1
I
OH
= -1 mA 2.05 V
Output Low Voltage V
OL
1
I
OL
= 1 mA 0.5 V
Output High Current I
OH
1
V
OH@MIN
= 1.0 V, V
OH@MAX
= 3.135 V -29 -20 mA
Output Low Current I
OL
1
V
OL @MIN
= 1.95 V, V
OL @MAX
= 0.4 V 25 27 mA
48DOT Rise Time t
r1
1
V
OL
= 0.4 V, V
OH
= 2.4 V (Fig. 7) 0.5 0.7 1.15 ns
48DOT Fall Time t
f1
1
V
OH
= 2.4 V, V
OL
= 0.4 V (Fig. 7) 0.5 0.8 1.15 ns
VCH 48 USB Rise Time t
r1
1
V
OL
= 0.4 V, V
OH
= 2.4 V (Fig. 7) 11.22.3 ns
VCH 48 USB Fall Time t
f1
1
V
OH
= 2.4 V, V
OL
= 0.4 V (Fig. 7) 11.42.3 ns
48 DOT Duty Cycle d
t1
1
V
T
= 1.5 V (Fig. 8) 45 53 55 %
VCH 48 USB Duty Cycle d
t1
1
V
T
= 1.5 V (Fig. 8) 45 53 55 %
48 DOT Jitter t
j
c
y
c-c
y
c
1
V
T
= 1.5 V (Fig. 8) 183 410 ps
USB to DOT Skew t
sk1
1
V
T
= 1.5 V (180 degrees out of phase) 0.43 1 ns
VCH Jitter t
j
c
y
c-c
y
c
1
V
T
= 1.5 V (Fig. 8) 157 410 ps
1
Guaranteed b
y
desi
g
n, not 100% tested in
p
roduction.
IDTTM Frequency Generator with 200MHz Differential CPU Clocks 0542J—01/25/10
ICS950812
Frequency Generator with 200MHz Differential CPU Clocks
13
Electrical Characteristics - REF (1X select)
T
A
= 0 - 90°C; VDD=3.3V +/-5%; C
L
= 10-20 pF (unless otherwise specified)
PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS
Output Frequency F
O1
Fig. 8 14.318 MHz
Output Impedance R
DSP1
1
V
O
= V
DD
*(0.5) 20 48 70
Output High Voltage V
OH
1
I
OH
= -1 mA 2.05 V
Output Low Voltage V
OL
1
I
OL
= 1 mA 0.45 V
Output High Current I
OH
1
V
OH@MIN
= 1.0 V, V
OH@MAX
= 3.135 V -29 -25 mA
Output Low Current I
OL
1
V
OL @MIN
= 1.95 V, V
OL @MAX
= 0.4 V 25 27 mA
Rise Time t
r1
1
V
OL
= 0.4 V, V
OH
= 2.4 V (Fig. 7) 0.5 1.1 2.3 ns
Fall Time t
f1
1
V
OH
= 2.4 V, V
OL
= 0.4 V (Fig. 7) 0.5 1.4 2.3 ns
Duty Cycle d
t1
1
V
T
= 1.5 V 45 53 55 %
Jitter t
j
c
y
c-c
y
c
1
V
T
= 1.5 V (Fig. 8) 180 1200 ps
1
Guaranteed by design, not 100% tested in production.
Electrical Characteristics - REF (2X select)
T
A
= 0 - 90°C; VDD=3.3V +/-5%; C
L
= 20-40 pF (unless otherwise specified)
PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS
Output Frequency F
O1
Fig. 8 14.318 MHz
Output Impedance R
DSP1
1
V
O
= V
DD
*(0.5) 12 33 65
Output High Voltage V
OH
1
I
OH
= -1 mA 2.05 V
Output Low Voltage V
OL
1
I
OL
= 1 mA 0.65 V
Output High Current I
OH
1
V
OH@MIN
= 1.0 V, V
OH@MAX
= 3.135 V -33 -28 mA
Output Low Current I
OL
1
V
OL @MIN
= 1.95 V, V
OL @MAX
= 0.4 V 26 38 mA
Rise Time t
r1
1
V
OL
= 0.4 V, V
OH
= 2.4 V (Fig. 7) 0.5 1.1 2.3 ns
Fall Time t
f1
1
V
OH
= 2.4 V, V
OL
= 0.4 V (Fig. 7) 0.5 0.9 2.3 ns
Duty Cycle d
t1
1
V
T
= 1.5 V 45 53 55 %
Jitter t
j
c
y
c-c
y
c
1
V
T
= 1.5 V (Fig. 8) 180 1200 ps
1
Guaranteed by design, not 100% tested in production.
IDTTM Frequency Generator with 200MHz Differential CPU Clocks 0542J—01/25/10
ICS950812
Frequency Generator with 200MHz Differential CPU Clocks
14
0.000 V
T
PERIOD
High Duty Cycle % Low Duty Cycle %
Figure 1 - Differential (CPUCLK - CPUCLK#) Measurement Points (Tperiod, Duty Cycle, Jitter)
+0.35V
CPUCLK#
0.0V
-0.35V
CPUCLK T
RISE
T
FALL
Figure 1 - Differential (CPUCLK - CPUCLK#) Measurement Points (Tperiod, Duty Cycle, Jitter)
Figure 2 - 0.7V Differential TRise and TFall Measurement Points
IDTTM Frequency Generator with 200MHz Differential CPU Clocks 0542J—01/25/10
ICS950812
Frequency Generator with 200MHz Differential CPU Clocks
15
Figure 3 - 0.7V Single Ended Measurement Points for TRise, TFall
V
OH
= 0.525
V
CROSS
V
OL
= 0.175V
CPUCLK#
CPUCLK
T
FALL
(CPUCLK#)
T
RISE
(CPUCLK)
Figure 4 - 0.7V VCross Range Measurement Clarification
V
CROSS(REL)
max
V
CROSS(REL)
min
Total V
CROSS
Variation
(140mV max)
IDTTM Frequency Generator with 200MHz Differential CPU Clocks 0542J—01/25/10
ICS950812
Frequency Generator with 200MHz Differential CPU Clocks
16
Figure 5 - 1.0V Single Ended VCross, VOH and VOL Measurement Points
Figure 6 - 1.0V Single Ended Measurement Points for TRise, TFall
V
CROSS
Max 0.76V
V
OH
Max 1.45V
CPUCLK#
CPUCLK
V
OH
Min 0.92V
V
CROSS
Min 0.51V
V
OL
Max 0.35V
V
OL
Min -0.20V
V
OH
= 0.86V
V
CROSS
V
OL
= 0.41V
CPUCLK#
CPUCLK
T
FALL
(CPUCLK#)
T
RISE
(CPUCLK)
IDTTM Frequency Generator with 200MHz Differential CPU Clocks 0542J—01/25/10
ICS950812
Frequency Generator with 200MHz Differential CPU Clocks
17
Figure 7 - Measurement Points for TRise, TFall with Lumped Load
1.5V
2.4V
0.4V
Figure 8 - Measurement Points for TPeriod, Duty Cycle and Jitter
1.5V
T
PERIOD
High Duty Cycle % Low Duty Cycle %
IDTTM Frequency Generator with 200MHz Differential CPU Clocks 0542J—01/25/10
ICS950812
Frequency Generator with 200MHz Differential CPU Clocks
18
General SMBus serial interface information for the ICS950812
How to Write:
Controller (host) sends a start bit.
Controller (host) sends the write address D2 (H)
ICS clock will
acknowledge
Controller (host) sends the beginning byte location = N
ICS clock will
acknowledge
Controller (host) sends the data byte count = X
ICS clock will
acknowledge
Controller (host) starts sending
Byte N through
Byte N + X -1
ICS clock will
acknowledge
each byte
one at a time
Controller (host) sends a Stop bit
How to Read:
Controller (host) will send start bit.
Controller (host) sends the write address D2 (H)
ICS clock will
acknowledge
Controller (host) sends the begining byte
location = N
ICS clock will
acknowledge
Controller (host) will send a separate start bit.
Controller (host) sends the read address D3 (H)
ICS clock will
acknowledge
ICS clock will send the data byte count = X
ICS clock sends
Byte N + X -1
ICS clock sends
Byte 0 through byte X (if X
(H)
was written to byte 8)
.
Controller (host) will need to acknowledge each byte
Controller (host) will send a not acknowledge bit
Controller (host) will send a stop bit
ICS (Slave/Receiver)
T
WR ACK
ACK
ACK
ACK
ACK
PstoP bit
X Byte
Index Block Write Operati on
Slave Address D2(H)
Beginning Byte = N
WRite
starT bit
Controller (Host)
Byte N + X - 1
Data Byte Count = X
Beginning Byte N
T starT bit
WR WRite
RT Repeat starT
RD ReaD
Beginning Byte N
Byte N + X - 1
N Not acknowledge
PstoP bit
Slave Address D3(H)
Index Block Read Operation
Slave Address D2(H)
Beginning Byte = N ACK
ACK
Data Byte Count = X
ACK
ICS (Slave/Receiver)
Controller (Host)
X Byte
ACK
ACK
IDTTM Frequency Generator with 200MHz Differential CPU Clocks 0542J—01/25/10
ICS950812
Frequency Generator with 200MHz Differential CPU Clocks
19
Pin # Name 0 1 PWD
Bit 7 - Spread Enabled Spread Spectrum Control RW OFF ON 0
Bit 6 - CPUCLKT(2:0)
Power down mode output level
0= CPU driven in power down
1= undriven
RW HIGH LOW 0
Bit 5 35 3V66_1/VCH_CLK/FS4** VCH/66.66 Select RW 66.66 48.00 0
Bit 4 53 CPU_STOP#* Reflects value of pin R Stop Active X
Bit 3 34 PCI_STOP#* Reflects value of pin at power up.
Also can be set. RW Stop Active X
Bit 2 39 FS3 Frequency Selection RW - - X
Bit 1 55 FS1 Frequency Selection R - - X
Bit 0 54 FS0 Frequency Selection R - - X
Note: For PCI_STOP# function, refer to table 3.
Type Bit Control
Control Function
Affected PinBYTE
0
Pin # Name 0 1 PWD
Bit 7 43 MULTSEL* Reflects value of pin R - - x
Bit 6 - CPUCLKT(2:0)
CPU_Stop mode output level
0= CPU driven when stopped
1 = undriven
RW HIGH LOW 0
Bit 5 45, 44 CPUCLKT2, CPUCLKC2
(see note)
Allow control of output with
assertion of CPU_STOP#. RW Not
Freerun Freerun 0
Bit 4 49, 48 CPUCLKT1, CPUCLKC1
(see note)
Allow control of output with
assertion of CPU_STOP#. RW Not
Freerun Freerun 0
Bit 3 52, 51 CPUCLKT0, CPUCLKC0
(see note)
Allow control of output with
assertion of CPU_STOP#. RW Not
Freerun Freerun 0
Bit 2 45, 44 CPUCLKT2, CPUCLKC2 Output control RW Disable Enable 1
Bit 1 49, 48 CPUCLKT1, CPUCLKC1 Output control RW Disable Enable 1
Bit 0 52, 51 CPUCLKT0, CPUCLKC0 Output control RW Disable Enable 1
Note:
Type Bit Control
Control Function
Affected PinBYTE
1
CPUCLK(2:0) can be turned on/off by CPU_STOP#. Refer to table 4.
Pin # Name 0 1 PWD
Bit 7 56 REF 1X or 2X Strength control RW 1X 2X 0
Bit 6 18 PCICLK6 Output control RW Disable Enable 1
Bit 5 17 PCICLK5 Output control RW Disable Enable 1
Bit 4 16 PCICLK4 Output control RW Disable Enable 1
Bit 3 13 **E_PCICLK3/PCICLK3 Output control RW Disable Enable 1
Bit 2 12 PCICLK2 Output control RW Disable Enable 1
Bit 1 11 **E_PCICLK1/PCICLK1 Output control RW Disable Enable 1
Bit 0 10 PCICLK0 Output control RW Disable Enable 1
Note:
BYTE
2Control Function Bit Control
PCICLK(6:0) can be turned on/off by PCI_STOP#. Refer to table 3.
Affected Pin Type
Pin # Name 0 1 PWD
Bit 7 38 48MHz_DOT Output control RW Disable Enable 1
Bit 6 39 48MHz_USB/FS3** Output control RW Disable Enable 1
Bit 5 7 PCICLK_F2 (see note) Allow control of output with
assertion of PCI_STOP#. RW Freerun Not
Freerun 0
Bit 4 6 PCICLK_F1 (see note) Allow control of output with
assertion of PCI_STOP#. RW Freerun Not
Freerun 0
Bit 3 5 PCICLK_F0 (see note) Allow control of output with
assertion of PCI_STOP#. RW Freerun Not
Freerun 0
Bit 2 7 PCICLK_F2 Output control RW Disable Enable 1
Bit 1 6 PCICLK_F1 Output control RW Disable Enable 1
Bit 0 5 PCICLK_F0 Output control RW Disable Enable 1
Note: PCICLK_F(2:0) can be turned on/off by PCI_STOP#. Refer to table 5.
BYTE
3Control Function
Affected Pin Bit Control
Type
IDTTM Frequency Generator with 200MHz Differential CPU Clocks 0542J—01/25/10
ICS950812
Frequency Generator with 200MHz Differential CPU Clocks
20
Pin # Name 0 1 PWD
Bit 7 35 FS4 Frequency Selection RW Disable Enable X
Bit 6 33 FS5 Frequency Selection RW Disable Enable X
Bit 5 33 3V66_0/FS5** Output control RW Disable Enable 1
Bit 4 35 3V66_1/VCH_CLK/FS4** Output control RW Disable Enable 1
Bit 3 24 66MHZ_IN/3V66_5 Output control RW Disable Enable 1
Bit 2 23 66MHZ_OUT2/3V66_4 Output control RW Disable Enable 1
Bit 1 22 66MHZ_OUT1/3V66_3 Output control RW Disable Enable 1
Bit 0 21 66MHZ_OUT0/3V66_2 Output control RW Disable Enable 1
TypeControl Function
Affected PinBYTE
4
Bit Control
Pin # Name 0 1 PWD
Bit 7 X - Unused - - - 0
Bit 6 X - Reserved X - - 0
Bit 5 X 3V66(5:2)/66MHZ_OUT(2:0)
(See table 6)
Allow control of output with
assertion of CPU_STOP#. X Freerun Not
Freerun 0
Bit 4 X 3V66(1:0) (See table 7) Allow control of output with
assertion of CPU_STOP#. X Freerun Not
Freerun 0
Bit 3 RW - - 0
Bit 2 RW - - 0
Bit 1 RW - - 0
Bit 0 RW - - 0
Note:
Control Function
00 = Medium (default), 01 = Low,
11,10 =High
Type
38 48MHz_DOT Slew Control
Affected PinBYTE
5
Functions in Byte 5 of CK408 were intended as a test and debug byte only.
00 = Medium (default), 01 = Low,
11,10 =High
Bit Control
48MHz_USB Slew Control39
Pin # Name 0 1 PWD
Bit 7 X Revision ID Bit 3 R - - X
Bit 6 X Revision ID Bit 2 R - - X
Bit 5 X Revision ID Bit 1 R - - X
Bit 4 X Revision ID Bit 0 R - - X
Bit 3 X Vendor ID Bit 3 (Reserved) R - - 0
Bit 2 X Vendor ID Bit 2 (Reserved) R - - 0
Bit 1 X Vendor ID Bit 1 (Reserved) R - - 0
Bit 0 X Vendor ID Bit 0 (Reserved) R - - 1
Revision ID Value Based on
Device Revision
Control Function Type Bit ControlAffected PinBYTE
6
Pin # Name 0 1 PWD
Bit 7 X - Unused R - - 0
Bit 6 X - Unused R - - 0
Bit 5 X - Unused R - - 0
Bit 4 X - Unused R - - 0
Bit 3 X - Unused R - - 0
Bit 2 X - Unused R - - 0
Bit 1 X - Unused R - - 0
Bit 0 X - Unused R - - 0
TypeControl Function Bit ControlAffected PinBYTE
7
Pin # Name 0 1 PWD
Bit 7 X - (Reserved) X - - 0
Bit 6 X - (Reserved) X - - 0
Bit 5 X - (Reserved) X - - 0
Bit 4 X - (Reserved) X - - 0
Bit 3 X - R - - 1
Bit 2 X - R - - 1
Bit 1 X - R - - 1
Bit 0 X - R - - 1
Note: Byte 8 is for ICS test only. Do not write as system damage may occur. Bit(3:0) contain the readback Byte count.
Bit ControlAffected Pin Control Function
Readback Byte Count
Type
BYTE
8
IDTTM Frequency Generator with 200MHz Differential CPU Clocks 0542J—01/25/10
ICS950812
Frequency Generator with 200MHz Differential CPU Clocks
21
Pin # Name 0 1 PWD
Bit 7 RW - - 0
Bit 6 RW - - 0
Bit 5 RW - - 0
Bit 4 RW - - 0
Bit 3 RW - - 0
Bit 2 RW - - 0
Bit 1 RW - - 0
Bit 0 RW - - 0
Bit Control
00 (default), 11 = Medium
01 = Low, 10 =High
00 (default), 11 = Medium
10 = Low, 01 =High
00 (default), 11 = Medium
10 = Low, 01 =High
00 = High(default), 01 = Low,
11,10 = Medium
VCHCLK Slew Control
Type
BYTE
9
Affected Pin Control Function
35
7, 6, 5 PCICLK_F (2:0) Slew Contol
13, 12,
11, 10 PCICLK (3:0) Slew Contol
18, 17, 16,
13 , 12, 11, 10 PCICLK (6:0) Slew Contol
Pin # Name 0 1 PWD
Bit 7 X - M/N Enable (Enable access to
Byte 11 - 14) RW HW/B0 Byte
(11-14) 0
Bit 6 X - Unused - - - 0
Bit 5 RW - - 0
Bit 4 RW - - 0
Bit 3 RW - - 0
Bit 2 RW - - 0
Bit 1 X - Unused - - - 0
Bit 0 X - Unused - - - 0
Bit Control
Control Function Type
BYTE
10
Affected Pin
24, 23,
22, 21
3V66(5:2)/66MHZ_OUT(2:0)
Skew Approx 250ps per bit (Ref to PCI)
33, 35 3V66(1:0) Skew Approx 250ps per bit (Ref to PCI)
Pin # Name 0 1 PWD
Bit 7 X - VCO Divider Bit8 RW - - X
Bit 6 X - REF Divider Bit6 RW - - X
Bit 5 X - REF Divider Bit5 RW - - X
Bit 4 X - REF Divider Bit4 RW - - X
Bit 3 X - REF Divider Bit3 RW - - X
Bit 2 X - REF Divider Bit2 RW - - X
Bit 1 X - REF Divider Bit1 RW - - X
Bit 0 X - REF Divider Bit0 RW - - X
Note: The decimal representation of these 7 bits (Byte 11 bit[6:0]) + 2 is equal to the REF divider value.
BYTE
11
Affected Pin Control Function Type Bit Control
Pin # Name 0 1 PWD
Bit 7 X - VCO Divider Bit7 RW - - X
Bit 6 X - VCO Divider Bit6 RW - - X
Bit 5 X - VCO Divider Bit5 RW - - X
Bit 4 X - VCO Divider Bit4 RW - - X
Bit 3 X - VCO Divider Bit3 RW - - X
Bit 2 X - VCO Divider Bit2 RW - - X
Bit 1 X - VCO Divider Bit1 RW - - X
Bit 0 X - VCO Divider Bit0 RW - - X
Note: The decimal representation of these 9 bits (Byte 12 bit[7:0]) and Byte 11 bit [7]) + 8 is equal to the VCO divider value.
Bit ControlBYTE
12
Affected Pin Control Function Type
IDTTM Frequency Generator with 200MHz Differential CPU Clocks 0542J—01/25/10
ICS950812
Frequency Generator with 200MHz Differential CPU Clocks
22
Pin # Name 0 1 PWD
Bit 7 X - Spread Spectrum Bit7 RW - - X
Bit 6 X - Spread Spectrum Bit6 RW - - X
Bit 5 X - Spread Spectrum Bit5 RW - - X
Bit 4 X - Spread Spectrum Bit4 RW - - X
Bit 3 X - Spread Spectrum Bit3 RW - - X
Bit 2 X - Spread Spectrum Bit2 RW - - X
Bit 1 X - Spread Spectrum Bit1 RW - - X
Bit 0 X - Spread Spectrum Bit0 RW - - X
Affected Pin
Note: Please utilize software utility provided by ICS Application Engineering to configure spread spectrum. Incorrect spread
percentage may cause system failure.
BYTE
13 Control Function Type Bit Control
Pin # Name 0 1 PWD
Bit 7 X - (Reserved) RW - - X
Bit 6 X - (Reserved) RW - - X
Bit 5 X - Spread Spectrum Bit13 RW - - X
Bit 4 X - Spread Spectrum Bit12 RW - - X
Bit 3 X - Spread Spectrum Bit11 RW - - X
Bit 2 X - Spread Spectrum Bit10 RW - - X
Bit 1 X - Spread Spectrum Bit9 RW - - X
Bit 0 X - Spread Spectrum Bit8 RW - - X
BYTE
14
Affected Pin Control Function
Note: Please utilize software utility provided by ICS Application Engineering to configure spread spectrum. Incorrect spread
percentage may cause system failure.
Bit Control
Type
Note: See table 8 for Byte 11-14 default information
Spread Spectrum Enable Procedure
Step 1: Power-up ---- Latched inputs, FS(5:0), set frequency per Hardware default on board. SS is off.
BIOS program set IIC Byte0, bit7 to 1, SS will be enable Spread. Note that Byte 10,
bit 7 is default to 0. This allows all setup to be controlled by the Frequency Select
Tables, 1 and 2.
Step 3: To set up Linear programming and SS% adjust using Byte 11 through 14, the BIOS must set
Byte 10, bit 7 to a 1. This will enable access to Byte 11 and 12, M/N linear programming
and Byte 13 and 14, Spread Spectrum % adjust.
Step 2: After power up, SS% can be changed to the fixed selections shown in Frequency Table 2. This
is achieved by Writing to Byte 4, bit 6/7 (FS5:4) and/or Byte 0 (FS3), The data written
to these bytes will overwrite the existing contents and switch to the desired selection.
IDTTM Frequency Generator with 200MHz Differential CPU Clocks 0542J—01/25/10
ICS950812
Frequency Generator with 200MHz Differential CPU Clocks
23
All 3V66 clocks are to be in phase with each other. All 66MHz_OUT clocks are to be in phase with each other. There is NO
phase relationship between the 3V66 clocks and the 66MHz_OUT and PCI clocks. In the case where 3V66_1 is configured
as 48MHz VCH clock, there is no defined phase relationship between 3V66_1_VCH and other 3V66 clocks. The PCI group
should lag 3V66 by the standard skew described below as Tpci.
The 66MHz_IN to 66MHz_OUT delay is shown in the figure below and is specified to be within a min and max propagation
value.
Buffered Mode - 3V66[0:1], 66MHz_IN, 66MHz_OUT[0:2] and PCI Phase Relationship
Group to Group Skews at Common Transition Edges: Buffered Mode
GROUP SYMBOL CONDITIONS MIN TYP MAX UNITS
66MHz_IN 66MHz_OUT1,2 Tpd Propogation delay from
66MHz_IN to 66MHz_OUT (2:0) 2.5 2.9 4.5 ns
66MHz_OUT to PCI1,2 Tpci 66MHz_OUT (2:0) leads 33 MHz
PCICLK 1.5 3.5 ns
1Guaranteed by design, not 100% tested in production.
2500ps Tolerance
E_PCICLK to PCICLK Skews
GROUP SYMBOL CONDITIONS MIN TYP MAX UNITS
TE_PCI-PCI1
E_PCICLK1 (pin 11)=0
E_PCICLK3 (pin 13)=1 0.3 0.5 0.7 ns
TE_PCI-PCI2
E_PCICLK1 (pin 11)=1
E_PCICLK3 (pin 13)=0 0.8 1.0 1.2 ns
TE_PCI-PCI3
E_PCICLK1 (pin 11)=1
E_PCICLK3 (pin 13)=1 1.3 1.5 1.7 ns
1Guaranteed by design, not 100% tested in production.
E_PCICLK to PCICLK1
66MHz_IN
66MHz_OUT
3V66
Tpd
Tpci
No Relationship
E_PCICLK (3,1)
Tepci
PCICLK_F (2:0) PCICLK (6:0)
IDTTM Frequency Generator with 200MHz Differential CPU Clocks 0542J—01/25/10
ICS950812
Frequency Generator with 200MHz Differential CPU Clocks
24
All 3V66 clocks are to be in pphase with each other. In the case where 3V66_1 is configured as 48MHz VCH clock, there is no
defined phase relationship between 3V66_1_VCH and other 3V66 clocks. The PCI group should lag 3V66 by the standard
skew described below as Tpci.
Un-Buffered Mode 3V66 & PCI Phase Relationship
Group to Group Skews at Common Transition Edges: Unbuffered Mode
GROUP SYMBOL CONDITIONS MIN TYP MAX UNITS
3V66 to PCI1,2 S3V66-PCI 3V66 (5:0) leads 33MHz PCI 1.5 2.55 3.5 ns
1Guarenteed by desi
g
n, not 100% tested in production.
2500ps Tolerance
3V66 (1:0)
3V66 (4:2)
3V66_5
E_PCICLK (3,1)
PCICLK_F (2:0) PCICLK (6:0) Tpci
Tepci
E_PCICLK to PCICLK Skews
GROUP SYMBOL CONDITIONS MIN TYP MAX UNITS
TE_PCI-PCI0
E_PCICLK1 (pin 11)=0
E_PCICLK3 (pin 13)=0 -0.2 0 0.2 ns
E_PCICLK to PCICLK1TE_PCI-PCI1
E_PCICLK1 (pin 11)=0
E_PCICLK3 (pin 13)=1 0.3 0.5 0.7 ns
TE_PCI-PCI2
E_PCICLK1 (pin 11)=1
E_PCICLK3 (pin 13)=0 0.8 1.0 1.2 ns
TE_PCI-PCI3
E_PCICLK1 (pin 11)=1
E_PCICLK3 (pin 13)=1 1.3 1.5 1.7 ns
IDTTM Frequency Generator with 200MHz Differential CPU Clocks 0542J—01/25/10
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Frequency Generator with 200MHz Differential CPU Clocks
25
The impact of asserting the PCI_STOP# signal will be the following. All PCI[6:0] and stoppable PCI_F[2,0] clocks will latch low
in their next high to low transition. The PCI_STOP# setup time tsu is 10 ns, for transitions to be recognized by the next rising
edge.
PCI_STOP#
PCI_F[2:0] 33MHz
PCI[6:0] 33MHz
tsu
Assertion of PCI_STOP# Waveforms
PCI_STOP# - Assertion (transition from logic "1" to logic "0")
CPU_STOP# - Assertion (transition from logic "1" to logic "0")
Assertion of CPU_STOP# Waveforms
CPU_STOP# Functionality
#POTS_UPCTUPCCUPC
1lamroNlamroN
0tluM*feritaolF
The impact of asserting the CPU_STOP# pin is all CPU outputs that are set in the I2C configuration to be stoppable via
assertion of CPU_STOP# are to be stopped after their next transition. When the I2C Bit 6 of Byte 1 is programmed to '0' the final
state of the stopped CPU signals is CPU = High and CPU# = Low. There is to be no change to the output drive current values.
The CPU will be driven high with a current value equal to (Mult 0 'select') x (Iref), the CPU# signal will not be driven . When the
I2C Bit 6 of Byte 1 is programmed to '1' then final state of the stopped CPU signals is Low, both CPU and CPU# outputs will not
be driven.
CPU_STOP#
CPUCLKT
CPUCLKC
IDTTM Frequency Generator with 200MHz Differential CPU Clocks 0542J—01/25/10
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Frequency Generator with 200MHz Differential CPU Clocks
26
PD# Functionality
#DPTKLCUPCCKLCUPC66V3TUO_zHM66 F_KLCICP
KLCICP KLCICP TOD/BSU
zHM84
1lamroNlamroNzHM66NI_zHM66
2/NI_zHM662/NI_zHM66
zHM84
0tluM*feritaolFwoLwoLwoLwoLwoL
CPU_STOP# - De-assertion (transition from logic "0" to logic "1")
De-assertion of CPU_STOP# Waveforms
All CPU outputs that were stopped are to resume normal operation in a glitch free manner. The maximum latency from the de-
assertion to active outputs is to be defined to be between 2 - 6 CPU clock periods (2 clocks are shown). If the I2C Bit 6 of Byte
1 is programmed to "1" then the stopped CPU outputs will be driven High within 10 nS of CPU_Stop# de-assertion.
When PWRDWN# is sampled low by two consecutive rising edges of CPU clock, then all clock outputs except CPU clocks
must be held low on their next high to low transitions. When the I2C Bit 6 of Byte 0 is programmed to '0' CPU clocks must be
held with the CPU clock pin driven high with a value of 2 x Iref, and CPU# undriven. If Bit 6 of Byte 0 is '1' then both CPU and
CPU# are undriven. Note the example below shows CPU = 133 MHz and Bit 6 of Byte 0 = '0', this diagram and description is
applicable for all valid CPU frequencies 66, 100, 133, 200 MHz.
Due to the state if the internal logic, stopping and holding the REF clock outputs in the LOW state may require more than one
clock cycle to complete.
PD# - Assertion (transition from logic "1" to logic "0")
Power Down Assertion of Waveforms
0ns
PD#
CPUCLKT 100MHz
CPUCLKC 100MHz
3V66MHz
66MHz_IN
66MHz_OUT
PCICLK 33MHz
USB 48MHz
REF 14.318MHz
25ns 50ns
CPU_STOP#
CPUCLKT(2:0)
*CPUCLKT(2:0)TS
CPUCLKC(2:0)
Tdrive_CPU_STOP# <10ns @ 200mV
*Signal TS is CPUCLKT in Tri-State mode
IDTTM Frequency Generator with 200MHz Differential CPU Clocks 0542J—01/25/10
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Frequency Generator with 200MHz Differential CPU Clocks
27
Power Down De-Assertion Mode
The power-up latency needs to be less than 1.8mS. this is the time from the de-asseration of the powerdown of the ramping
of the power supply until the time that stable clocks are output from the clock chip. If the I2C Bit 6 of Byte 0 is programmed to
"1" then the stopped CPU outputs will be driven high within 3 nS of PD# de-asseration.
Test Configuration Diagrams
CPU 1.0V Configuration test load board termination
TLA
TLB
R
REF
=221 Ohms
1%
MULTSEL Pin must be Low
Rs=33 Ohms
1%
Rs=33 Ohms
1%
Rp=63.4 Ohms
1% Rp=63.4 Ohms
1%
Rdif=475 Ohms
1%
2pF
5%
2pF
5%
CPUCLKT test
point
CPUCLKC test
point
C
LK408
CPU 0.7V Configuration test load board termination
TLA
TLB
MULTSEL Pin must be High
Rs=33 Ohms
5%
Rs=33 Ohms
5%
Rp=49.9 Ohms
1% Rp=49.9 Ohms
1%
Rset=475 Ohms
1%
2pF
5%
2pF
5%
CPUCLKT tes
t
point
CPUCLKC test
point
C
LK408
IDTTM Frequency Generator with 200MHz Differential CPU Clocks 0542J—01/25/10
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Frequency Generator with 200MHz Differential CPU Clocks
28
INDEX
AREA
INDEX
AREA
12
1 2
N
D
h x 45°
h x 45°
E1 E
a
SEATING
PLANE
SEATING
PLANE
A1
A
e
-C-
- C -
b
.10 (.004) C
.10 (.004) C
c
L
300 mil SSOP Package
MIN MAX MIN MAX
A 2.41 2.80 .095 .110
A1 0.20 0.40 .008 .016
b 0.20 0.34 .008 .0135
c 0.13 0.25 .005 .010
D
E 10.03 10.68 .395 .420
E1 7.40 7.60 .291 .299
e
h 0.38 0.64 .015 .025
L 0.50 1.02 .020 .040
N
α
MIN MAX MIN MAX
56 18.31 18.55 .720 .730
10-0034
SYMBOL
In Millimeters In Inches
COMMON DIMENSIONS COMMON DIMENSIONS
SEE VARIATIONS SEE VARIATIONS
0.635 BASIC 0.025 BASIC
Reference Doc.: JEDEC Publication 95, M O-118
VARIATIONS
SEE VARIATIONS SEE VARIATIONS
ND mm. D (inch)
Ordering Information
950812yFLFT
Example:
Designation for tape and reel packaging
RoHS Compliant (Optional)
Package Type
F = SSOP
Revision Designator (will not correlate with datasheet revision)
Device Type (consists of 3 to 7 digit numbers)
XXXX y F LF T
IDTTM Frequency Generator with 200MHz Differential CPU Clocks 0542J—01/25/10
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Frequency Generator with 200MHz Differential CPU Clocks
29
Ordering Information
950812yGLFT
INDEX
AREA
INDEX
AREA
12
1 2
N
D
E1 E
a
SEATING
PLANE
SEATING
PLANE
A1
A
A2
e
-C-
- C -
b
c
L
aaa
C
6.10 mm. Body , 0.50 mm. pitch TSSOP
(240 mil) (20 mil)
MIN MAX MIN MAX
A--1.20--.047
A1 0.05 0.15 .002 .006
A2 0.80 1.05 .032 .041
b 0.17 0.27 .007 .011
c 0.09 0.20 .0035 .008
D
E
E1 6.00 6.20 .236 .244
e
L 0.45 0.75 .018 .030
N
α
aaa -- 0.10 -- .004
VARIATIONS
MIN MAX MIN MAX
56 13.90 14.10 .547 .555
10-0039
ND m m . D (i nch )
Reference Doc.: JEDEC Publication 95, M O-153
0. 50 B A S IC 0.020 BA SIC
SEE VARIATIONS SEE VARIATIONS
SEE VARIATIONS SEE VARIATIONS
8. 10 B A S IC 0.319 BA SIC
SYMBOL In Millimet ers In Inc hes
COMMO N DIM ENSIO NS COMM O N DIM ENSIO NS
Example:
Designation for tape and reel packaging
RoHS Compliant (Optional)
Package Type
G = TSSOP
Revision Designator (will not correlate with datasheet revision)
Device Type (consists of 3 to 7 digit numbers)
XXXX y G LF T
ICS950812
Frequency Generator with 200MHz Differential CPU Clocks
30
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© 2009 Integrated Device Technology, Inc. All rights reserved. Product specifications subject to change without notice. IDT, ICS, 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.
Printed in USA
TM
Revision History
Rev. Issue Date Description Page #
I 8/4/2005
1. Moved SMBus after page 22.
2. Corrected 3V66 Buffered mode on Electrical Characteristics Table.
3. Added DC Characteristics to REF2X Electrical Characteristics Table.
4. Updated LF Orderin
g
Information to RoHS Compliant.
11,
13,
28, 29
J 1/25/2010 Updated document template