ICS9LPRS480 Integrated Circuit Systems, Inc. Programmable System Clock Chip for ATI RS780 - K8TM based Systems Key Specifications: • CPU outputs cycle-to-cycle jitter < 150ps • SRC outputs cycle-to-cycle jitter < 125ps • SB_SRC outputs cycle-to-cycle jitter < 125ps • +/- 100ppm frequency accuracy on CPU, SRC, ATIG • 0ppm frequency accuracy on 48MHz Recommended Application: ATI RS780 systems using AMD K8 processors Output Features: • Integrated series resistors on all differential outputs. • 1 - Greyhound compatible K8 CPU pairs • 5 - low-power differential SRC pairs • 2 - low-power differential chipset SouthBridge SRC pairs • 1 - Selectable low-power differential 100MHz non-spread SATA/ SRC output • 1 - Selectable low-power differential SRC / 27MHz Single Ended outputs • 1 - Selectable HT3 100MHz low-power differential hypertransport clock / HT66MHz Single Ended outputs • 1 - 48MHz USB clock • 3 - 14.318MHz Reference clock • 2 - low-power differential ATIG pairs • 5- Dedicated CLKREQ# pins Features/Benefits: • Power Saving Features: Optional Separate supply rail for SRC low Voltage I/O - ~33% power saving when 1.5V is used for this rail • Spread Spectrum for EMI reduction • Outputs may be disabled via SMBus • External crystal load capacitors for maximum frequency accuracy CPUKG0C_LPRS CPUKG0T_LPRS PD# GNDHTT HTT0C_LPRS/66M HTT0T_LPRS/66M VDDHTT VDDREF REF2/SEL_27 REF1/SEL_SATA REF0/SEL_HTT66 GNDREF X1 X2 VDD48 48MHz_0 Pin Configuration 64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49 GND48 1 48 VDDCPU SMBCLK 2 47 VDDCPU_IO SMBDAT 3 46 GNDCPU VDD 4 45 CLKREQ1#* SRC7C_LPRS/27MHz_NS 5 44 CLKREQ2#* SRC7T_LPRS/27MHz_SS 6 43 GNDSATA GND 7 42 SRC6T/SATAT_LPRS SRC4C_LPRS 8 41 SRC6C/SATAC_LPRS ICS9LPRS480 SRC4T_LPRS 9 40 VDDSATA GNDSRC 10 39 CLKREQ3#* VDDSRC_IO 11 38 CLKREQ4#* SRC3C_LPRS 12 37 SB_SRC0T_LPRS SRC3T_LPRS 13 36 SB_SRC0C_LPRS SRC2C_LPRS 14 35 VDDSB_SRC SRC2T_LPRS 15 34 VDDSB_SRC_IO VDDSRC 16 33 GNDSB_SRC 1391D—02/02/09 SB_SRC1T_LPRS ATIG0T_LPRS SB_SRC1C_LPRS ATIG0C_LPRS ATIG1T_LPRS ATIG1C_LPRS VDDATIG VDDATIG_IO GNDATIG *CLKREQ0# SRC0T_LPRS SRC0C_LPRS SRC1T_LPRS SRC1C_LPRS GNDSRC VDDSRC_IO 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 *Other names and brands may be claimed as the property of others. ICS9LPRS480 Integrated Circuit Systems, Inc. MLF Pin Description PIN # 1 2 3 4 PIN NAME GND48 SMBCLK SMBDAT VDD27 PIN TYPE GND IN I/O PWR 5 SRC7C_LPRS/27MHz_NS OUT 6 SRC7T_LPRS/27MHz_SS OUT 7 GND27 GND 8 SRC4C_LPRS OUT 9 SRC4T_LPRS OUT 10 11 GNDSRC VDDSRC_IO GND PWR 12 SRC3C_LPRS OUT 13 SRC3T_LPRS OUT 14 SRC2C_LPRS OUT 15 SRC2T_LPRS OUT 16 17 18 VDDSRC VDDSRC_IO GNDSRC PWR PWR GND 19 SRC1C_LPRS OUT 20 SRC1T_LPRS OUT 21 SRC0C_LPRS OUT 22 SRC0T_LPRS OUT 23 *CLKREQ0# IN 24 25 26 GNDATIG VDDATIG_IO VDDATIG GND PWR PWR 27 ATIG1C_LPRS OUT 28 ATIG1T_LPRS OUT 29 ATIG0C_LPRS OUT 30 ATIG0T_LPRS OUT 31 SB_SRC1C_LPRS OUT 32 SB_SRC1T_LPRS OUT DESCRIPTION Ground pin for the 48MHz outputs Clock pin of SMBus circuitry, 5V tolerant. Data pin for SMBus circuitry, 5V tolerant. 3.3V Power supply for SRC/27MHz output and 27MHz SS PLL True clock of low power differential SRC clock pair. (no 50ohm shunt resistor to GND and no 33 ohm series resistor needed)/27MHz 3.3V Single-ended non-spread output for discrete graphics Complement clock of low power differential SRC clock pair. (no 50ohm shunt resistor to GND and no 33 ohm series resistor needed)/27MHz 3.3V Single-ended spreading output for discrete graphics Ground for the SRC/27MHz outputs Complement clock of low power differential SRC clock pair. (no 50ohm shunt resistor to GND and no 33 ohm series resistor needed) True clock of low power differential SRC clock pair. (no 50ohm shunt resistor to GND and no 33 ohm series resistor needed) Ground pin for the SRC outputs Power supply for differential SRC outputs, nominal 1.05V to 3.3V Complement clock of low power differential SRC clock pair. (no 50ohm shunt resistor to GND and no 33 ohm series resistor needed) True clock of low power differential SRC clock pair. (no 50ohm shunt resistor to GND and no 33 ohm series resistor needed) Complement clock of low power differential SRC clock pair. (no 50ohm shunt resistor to GND and no 33 ohm series resistor needed) True clock of low power differential SRC clock pair. (no 50ohm shunt resistor to GND and no 33 ohm series resistor needed) Supply for SRC core, 3.3V nominal Power supply for differential SRC outputs, nominal 1.05V to 3.3V Ground pin for the SRC outputs Complement clock of low power differential SRC clock pair. (no 50ohm shunt resistor to GND and no 33 ohm series resistor needed) True clock of low power differential SRC clock pair. (no 50ohm shunt resistor to GND and no 33 ohm series resistor needed) Complement clock of low power differential SRC clock pair. (no 50ohm shunt resistor to GND and no 33 ohm series resistor needed) True clock of low power differential SRC clock pair. (no 50ohm shunt resistor to GND and no 33 ohm series resistor needed) Clock Request pin for SRC0 outputs. If output is selected for control, then that output is controlled as follows: 0 = enabled, 1 = Low-Low Ground pin for the ATIG outputs Power supply for differential ATIG outputs, nominal 1.05V to 3.3V Power supply for ATIG core, nominal 3.3V Complementary clock of low-power differential push-pull PCI-Express pair with integrated series resistor. (no 50ohm shunt resistor to GND and no 33 ohm series resistor needed) True clock of low-power differential push-pull PCI-Express pair with integrated series resistor. (no 50ohm shunt resistor to GND and no 33 ohm series resistor needed) Complementary clock of low-power differential push-pull PCI-Express pair with integrated series resistor. (no 50ohm shunt resistor to GND and no 33 ohm series resistor needed) True clock of low-power differential push-pull PCI-Express pair with integrated series resistor. (no 50ohm shunt resistor to GND and no 33 ohm series resistor needed) Complement clock of low power differential Chipset-to-Chipset SRC clock pair. (no 50ohm shunt resistor to GND and no 33 ohm series resistor needed True clock of low power differential Chipset-to-Chipset SRC clock pair. (no 50ohm shunt resistor to GND and no 33 ohm series resistor needed 1391D—02/02/09 2 ICS9LPRS480 Integrated Circuit Systems, Inc. MLF Pin Description (Continued) PIN # PIN NAME 33 GNDSB_SRC 34 VDDSB_SRC_IO 35 VDDSB_SRC PIN TYPE DESCRIPTION GND Ground pin for the SB_SRC outputs PWR Power supply for differential SB_SRC outputs, nominal 1.05V to 3.3V PWR Supply for SB SRC PLL core, 3.3V nominal Complement clock of low power differential Chipset-to-Chipset SRC clock pair. (no 50ohm shunt OUT resistor to GND and no 33 ohm series resistor needed True clock of low power differential Chipset-to-Chipset SRC clock pair. (no 50ohm shunt resistor OUT to GND and no 33 ohm series resistor needed Clock Request pin for SRC4 outputs. If output is selected for control, then that output is controlled IN as follows: 0 = enabled, 1 = Low-Low Clock Request pin for SRC3 outputs. If output is selected for control, then that output is controlled IN as follows: 0 = enabled, 1 = Low-Low PWR Power supply for SATA core logic, nominal 3.3V Complement clock of low power differential SRC/SATA clock pair. (no 50ohm shunt resistor to OUT GND and no 33 ohm series resistor needed) True clock of low power differential SRC clock pair. (no 50ohm shunt resistor to GND and no 33 OUT ohm series resistor needed) GND Ground pin for the SRC outputs Clock Request pin for SRC2 outputs. If output is selected for control, then that output is controlled IN as follows: 0 = enabled, 1 = Low-Low Clock Request pin for SRC1 outputs. If output is selected for control, then that output is controlled IN as follows: 0 = enabled, 1 = Low-Low GND Ground pin for the CPU outputs PWR Power supply for differential CPU outputs, nominal 1.05V to 3.3V PWR Supply for CPU core, 3.3V nominal Complementary signal of low-power differential push-pull AMD K8 "Greyhound" clock with OUT integrated series resistor. (no 33 ohm series resistor needed) True signal of low-power differential push-pull AMD K8 "Greyhound" clock with integrated series OUT resistor.(no 33 ohm series resistor needed) Enter /Exit Power Down. IN 0 = Power Down, 1 = normal operation. PWR Ground pin for the HTT outputs Complementary signal of low-power differential push-pull hypertransport clock with integrated OUT series resistor. (no 50ohm shunt resistor to GND and no 33 ohm series resistor needed) / 1.8V single ended 66MHz hyper transport clock True signal of low-power differential push-pull hypertransport clock with integrated series OUT resistor. (no 50ohm shunt resistor to GND and no 33 ohm series resistor needed) /1.8V single ended 66MHz hyper transport clock PWR Supply for HTT clocks, nominal 3.3V. PWR Ref, XTAL power supply, nominal 3.3V 36 SB_SRC0C_LPRS 37 SB_SRC0T_LPRS 38 CLKREQ4#* 39 CLKREQ3#* 40 VDDSATA 41 SRC6C/SATAC_LPRS 42 SRC6T/SATAT_LPRS 43 GNDSATA 44 CLKREQ2#* 45 CLKREQ1#* 46 47 48 GNDCPU VDDCPU_IO VDDCPU 49 CPUKG0C_LPRS 50 CPUKG0T_LPRS 51 PD# 52 GNDHTT 53 HTT0C_LPRS/66M 54 HTT0T_LPRS/66M 55 56 VDDHTT VDDREF 57 REF2/SEL_27 I/O 14.318 MHz reference clock, 3.3V/3.3V Latched input to select 27MHz SS and non SS on SRC7 0 = 100MHz differential spreading SRC clock, 1 = 27MHz non-spreading singled clock on pin 5 and 27MHz spread clock on pin 6. 58 REF1/SEL_SATA I/O 14.318 MHz 3.3V reference clock./ 3.3V tolerant latched input to select function of SRC6/SATA output 0 = 100MHz differential spreading SRC clock, 1 = 100MHz non-spreading differential SATA clock 59 REF0/SEL_HTT66 I/O 60 61 62 63 64 GNDREF X1 X2 VDD48 48MHz_0 GND IN OUT PWR OUT 14.318 MHz 3.3V reference clock./ 3.3V tolerant latched input to select Hyper Transport Clock Frequency. 0 = 100MHz differential HTT clock, 1 = 66MHz 3.3V single ended HTT clock Ground pin for the REF outputs. Crystal input, nominally 14.318MHz Crystal output, nominally 14.318MHz Power pin for the 48MHz outputs and core. 3.3V 48MHz clock output. 1391D—02/02/09 3 ICS9LPRS480 Integrated Circuit Systems, Inc. REF1/SEL_SATA REF0/SEL_HTT66 GNDREF X1 X2 VDD48 48MHz_0 GND48 SMBCLK SMBDAT VDD27 SRC7C_LPRS/27MHz_NS SRC7T_LPRS/27MHz_SS GND27 SRC4C_LPRS SRC4T_LPRS GNDSRC VDDSRC_IO SRC3C_LPRS SRC3T_LPRS SRC2C_LPRS SRC2T_LPRS VDDSRC VDDSRC_IO GNDSRC SRC1C_LPRS SRC1T_LPRS SRC0C_LPRS SRC0T_LPRS *CLKREQ0# GNDATIG VDDATIG_IO 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 ICS9LPRS480 Pin Configuration 64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 REF2/SEL_27 VDDREF VDDHTT HTT0T_LPRS/66M HTT0C_LPRS/66M GNDHTT PD# CPUKG0T_LPRS CPUKG0C_LPRS VDDCPU VDDCPU_IO GNDCPU CLKREQ1#* CLKREQ2#* GNDSATA SRC6T/SATAT_LPRS SRC6C/SATAC_LPRS VDDSATA CLKREQ3#* CLKREQ4#* SB_SRC0T_LPRS SB_SRC0C_LPRS VDDSB_SRC VDDSB_SRC_IO GNDSB_SRC SB_SRC1T_LPRS SB_SRC1C_LPRS ATIG0T_LPRS ATIG0C_LPRS ATIG1T_LPRS ATIG1C_LPRS VDDATIG 64-Pin TSSOP * Internal Pull-Up Resistor ** Internal Pull-Down Resistor 1391D—02/02/09 4 ICS9LPRS480 Integrated Circuit Systems, Inc. TSSOP Pin Description PIN # PIN NAME PIN TYPE 1 REF1/SEL_SATA I/O 2 REF0/SEL_HTT66 I/O 3 4 5 6 7 8 9 10 11 GNDREF X1 X2 VDD48 48MHz_0 GND48 SMBCLK SMBDAT VDD27 GND IN OUT PWR OUT GND IN I/O PWR 12 SRC7C_LPRS/27MHz_NS OUT 13 SRC7T_LPRS/27MHz_SS OUT 14 GND27 GND 15 SRC4C_LPRS OUT 16 SRC4T_LPRS OUT 17 18 GNDSRC VDDSRC_IO GND PWR 19 SRC3C_LPRS OUT 20 SRC3T_LPRS OUT 21 SRC2C_LPRS OUT 22 SRC2T_LPRS OUT 23 24 25 VDDSRC VDDSRC_IO GNDSRC PWR PWR GND 26 SRC1C_LPRS OUT 27 SRC1T_LPRS OUT 28 SRC0C_LPRS OUT 29 SRC0T_LPRS OUT 30 *CLKREQ0# IN 31 32 GNDATIG VDDATIG_IO GND PWR DESCRIPTION 14.318 MHz 3.3V reference clock./ 3.3V tolerant latched input to select function of SRC6/SATA output 0 = 100MHz differential spreading SRC clock, 1 = 100MHz non-spreading differential SATA clock 14.318 MHz 3.3V reference clock./ 3.3V tolerant latched input to select Hyper Transport Clock Frequency. 0 = 100MHz differential HTT clock, 1 = 66MHz 3.3V single ended HTT clock Ground pin for the REF outputs. Crystal input, nominally 14.318MHz Crystal output, nominally 14.318MHz Power pin for the 48MHz outputs and core. 3.3V 48MHz clock output. Ground pin for the 48MHz outputs Clock pin of SMBus circuitry, 5V tolerant. Data pin for SMBus circuitry, 5V tolerant. 3.3V Power supply for SRC/27MHz output and 27MHz SS PLL True clock of low power differential SRC clock pair. (no 50ohm shunt resistor to GND and no 33 ohm series resistor needed)/27MHz 3.3V Single-ended non-spread output for discrete graphics Complement clock of low power differential SRC clock pair. (no 50ohm shunt resistor to GND and no 33 ohm series resistor needed)/27MHz 3.3V Single-ended spreading output for discrete graphics Ground for the SRC/27MHz outputs Complement clock of low power differential SRC clock pair. (no 50ohm shunt resistor to GND and no 33 ohm series resistor needed) True clock of low power differential SRC clock pair. (no 50ohm shunt resistor to GND and no 33 ohm series resistor needed) Ground pin for the SRC outputs Power supply for differential SRC outputs, nominal 1.05V to 3.3V Complement clock of low power differential SRC clock pair. (no 50ohm shunt resistor to GND and no 33 ohm series resistor needed) True clock of low power differential SRC clock pair. (no 50ohm shunt resistor to GND and no 33 ohm series resistor needed) Complement clock of low power differential SRC clock pair. (no 50ohm shunt resistor to GND and no 33 ohm series resistor needed) True clock of low power differential SRC clock pair. (no 50ohm shunt resistor to GND and no 33 ohm series resistor needed) Supply for SRC core, 3.3V nominal Power supply for differential SRC outputs, nominal 1.05V to 3.3V Ground pin for the SRC outputs Complement clock of low power differential SRC clock pair. (no 50ohm shunt resistor to GND and no 33 ohm series resistor needed) True clock of low power differential SRC clock pair. (no 50ohm shunt resistor to GND and no 33 ohm series resistor needed) Complement clock of low power differential SRC clock pair. (no 50ohm shunt resistor to GND and no 33 ohm series resistor needed) True clock of low power differential SRC clock pair. (no 50ohm shunt resistor to GND and no 33 ohm series resistor needed) Clock Request pin for SRC0 outputs. If output is selected for control, then that output is controlled as follows: 0 = enabled, 1 = Low-Low Ground pin for the ATIG outputs Power supply for differential ATIG outputs, nominal 1.05V to 3.3V 1391D—02/02/09 5 ICS9LPRS480 Integrated Circuit Systems, Inc. TSSOP Pin Description (Continued) PIN # PIN NAME 33 VDDATIG 34 35 36 37 38 39 40 41 42 43 44 ATIG1C_LPRS ATIG1T_LPRS ATIG0C_LPRS ATIG0T_LPRS SB_SRC1C_LPRS SB_SRC1T_LPRS GNDSB_SRC VDDSB_SRC_IO VDDSB_SRC SB_SRC0C_LPRS SB_SRC0T_LPRS 45 CLKREQ4#* 46 47 48 49 50 CLKREQ3#* VDDSATA SRC6C/SATAC_LPRS SRC6T/SATAT_LPRS GNDSATA 51 CLKREQ2#* 52 53 54 55 56 57 58 59 CLKREQ1#* GNDCPU VDDCPU_IO VDDCPU CPUKG0C_LPRS CPUKG0T_LPRS PD# GNDHTT 60 HTT0C_LPRS/66M 61 62 63 HTT0T_LPRS/66M VDDHTT VDDREF 64 REF2/SEL_27 PIN TYPE DESCRIPTION PWR Power supply for ATIG core, nominal 3.3V Complementary clock of low-power differential push-pull PCI-Express pair with integrated series OUT resistor. (no 50ohm shunt resistor to GND and no 33 ohm series resistor needed) True clock of low-power differential push-pull PCI-Express pair with integrated series resistor. (no OUT 50ohm shunt resistor to GND and no 33 ohm series resistor needed) Complementary clock of low-power differential push-pull PCI-Express pair with integrated series OUT resistor. (no 50ohm shunt resistor to GND and no 33 ohm series resistor needed) True clock of low-power differential push-pull PCI-Express pair with integrated series resistor. (no OUT 50ohm shunt resistor to GND and no 33 ohm series resistor needed) Complement clock of low power differential Chipset-to-Chipset SRC clock pair. (no 50ohm shunt resistor OUT to GND and no 33 ohm series resistor needed True clock of low power differential Chipset-to-Chipset SRC clock pair. (no 50ohm shunt resistor to GND OUT and no 33 ohm series resistor needed GND Ground pin for the SB_SRC outputs PWR Power supply for differential SB_SRC outputs, nominal 1.05V to 3.3V PWR Supply for SB SRC PLL core, 3.3V nominal Complement clock of low power differential Chipset-to-Chipset SRC clock pair. (no 50ohm shunt resistor OUT to GND and no 33 ohm series resistor needed True clock of low power differential Chipset-to-Chipset SRC clock pair. (no 50ohm shunt resistor to GND OUT and no 33 ohm series resistor needed Clock Request pin for SRC4 outputs. If output is selected for control, then that output is controlled as IN follows: 0 = enabled, 1 = Low-Low Clock Request pin for SRC3 outputs. If output is selected for control, then that output is controlled as IN follows: 0 = enabled, 1 = Low-Low PWR Power supply for SATA core logic, nominal 3.3V Complement clock of low power differential SRC/SATA clock pair. (no 50ohm shunt resistor to GND and OUT no 33 ohm series resistor needed) True clock of low power differential SRC clock pair. (no 50ohm shunt resistor to GND and no 33 ohm OUT series resistor needed) GND Ground pin for the SRC outputs Clock Request pin for SRC2 outputs. If output is selected for control, then that output is controlled as IN follows: 0 = enabled, 1 = Low-Low Clock Request pin for SRC1 outputs. If output is selected for control, then that output is controlled as IN follows: 0 = enabled, 1 = Low-Low GND Ground pin for the CPU outputs PWR Power supply for differential CPU outputs, nominal 1.05V to 3.3V PWR Supply for CPU core, 3.3V nominal Complementary signal of low-power differential push-pull AMD K8 "Greyhound" clock with integrated OUT series resistor. (no 33 ohm series resistor needed) True signal of low-power differential push-pull AMD K8 "Greyhound" clock with integrated series OUT resistor.(no 33 ohm series resistor needed) Enter /Exit Power Down. IN 0 = Power Down, 1 = normal operation. PWR Ground pin for the HTT outputs Complementary signal of low-power differential push-pull hypertransport clock with integrated series OUT resistor. (no 50ohm shunt resistor to GND and no 33 ohm series resistor needed) / 1.8V single ended 66MHz hyper transport clock True signal of low-power differential push-pull hypertransport clock with integrated series resistor. (no OUT 50ohm shunt resistor to GND and no 33 ohm series resistor needed) /1.8V single ended 66MHz hyper transport clock PWR Supply for HTT clocks, nominal 3.3V. PWR Ref, XTAL power supply, nominal 3.3V 14.318 MHz reference clock, 3.3V/3.3V Latched input to select 27MHz SS and non SS on SRC7 I/O 0 = 100MHz differential spreading SRC clock, 1 = 27MHz non-spreading singled clock on pin 12 and 27MHz spread clock on pin 13. 1391D—02/02/09 6 ICS9LPRS480 Integrated Circuit Systems, Inc. General Description The ICS9LPRS480 is a main clock synthesizer chip that provides all clocks required for ATI RS7xx-based systems.using AMD processors. An SMBus interface allows full control of the device. Block Diagram X1 X2 REF(2:0) 14.318MHz OSC 48MHz_(1:0) Fixed PLL 100MHz SRC6/SATA 100MHz SS PLL CPU/HTT, SRC, ATIG SRC(5:0) 100MHz ATIG(2:0) 100MHz DIF/66MHz HTT0/66MHz 200MHz CPUKG SRC7T/27MHz_SS 27MHz SS PLL 27MHz SS PLL SRC7C/27MHz_NS SB_SRC(1:0) SS SB_SRC PD# SEL_27 SEL_SATA SEL_HTT66 SMBCLK Control Logic SMBDAT CLKREQ(5:0)# Power Groups Pin Number VDD 63 VDDIO Description GND 1 USB_48 outputs 4 7 SRC/27MHz Outputs 16 10,18 11,17 35 33 34 SB_SRC Core Logic SB_SRC differential outputs (IO's) 40 43 26 24 25 48 SRC Logic Core SRC differential outputs (IO's) SRC/SATA differential output ATIG Core Logic ATIG differential outputs (IO's) 43 47 CPUKG Core Logic CPUKG differential outputs (IO's) 55 52 HTTCLK output 56 60 REF outputs 1391D—02/02/09 7 ICS9LPRS480 Integrated Circuit Systems, Inc. Table1: CPU/HTT, SRC and ATIG Frequency Selection Table Byte 0 Byte 3 HTT Differential HTT CPU Single-ended Bit0 Bit3 Bit2 Bit1 Bit0 (MHz) CPU CPU CPU CPU SEL_HTT66 = 1 SEL_HTT66 = 0 SS_EN FS3 FS2 FS1 FS0 0 0 0 0 0 173.63 57.88 86.81 0 0 0 0 1 177.17 59.06 88.58 0 0 0 1 0 180.78 60.26 90.39 0 0 0 1 1 184.47 61.49 92.24 0 0 1 0 0 188.24 62.75 94.12 0 0 1 0 1 192.08 64.03 96.04 0 0 1 1 0 196.00 65.33 98.00 0 0 1 1 1 200.00 66.67 100.00 0 1 0 0 0 204.00 68.00 102.00 0 1 0 0 1 208.08 69.36 104.04 0 1 0 1 0 212.24 70.75 106.12 0 1 0 1 1 216.49 72.16 108.24 0 1 1 0 0 220.82 73.61 110.41 0 1 1 0 1 225.23 75.08 112.62 0 1 1 1 0 229.74 76.58 114.87 0 1 1 1 1 234.33 78.11 117.17 1 0 0 0 0 173.63 57.88 86.81 1 0 0 0 1 177.17 59.06 88.58 1 0 0 1 0 180.78 60.26 90.39 1 0 0 1 1 184.47 61.49 92.24 1 0 1 0 0 188.24 62.75 94.12 1 0 1 0 1 192.08 64.03 96.04 1 0 1 1 0 196.00 65.33 98.00 1 0 1 1 1 200.00 66.67 100.00 1 1 0 0 0 204.00 68.00 102.00 1 1 0 0 1 208.08 69.36 104.04 1 1 0 1 0 212.24 70.75 106.12 1 1 0 1 1 216.49 72.16 108.24 1 1 1 0 0 220.82 73.61 110.41 1 1 1 0 1 225.23 75.08 112.62 1 1 1 1 0 229.74 76.58 114.87 1 1 1 1 1 234.33 78.11 117.17 1391D—02/02/09 8 SRC/ATIG 86.81 88.58 90.39 92.24 94.12 96.04 98.00 100.00 102.00 104.04 106.12 108.24 110.41 112.62 114.87 117.17 86.81 88.58 90.39 92.24 94.12 96.04 98.00 100.00 102.00 104.04 106.12 108.24 110.41 112.62 114.87 117.17 Spread % Off -0.5% CPU OverClock % -13% -11% -10% -8% -6% -4% -2% 0% 2% 4% 6% 8% 10% 13% 15% 17% -13% -11% -10% -8% -6% -4% -2% 0% 2% 4% 6% 8% 10% 13% 15% 17% ICS9LPRS480 Integrated Circuit Systems, Inc. Table 2: SB_SRC Frequency Selection Table Byte 4 Byte 0 SRC Spread Bit0 Bit3 Bit2 Bit1 Bit0 (MHz) % SB SB SB SB SS_EN FS3 FS2 FS1 FS0 0 0 0 0 0 80.00 0 0 0 0 1 81.25 0 0 0 1 0 82.63 0 0 0 1 1 84.00 0 0 1 0 0 85.25 0 0 1 0 1 86.63 0 0 1 1 0 88.00 0 0 1 1 1 89.25 Off 0 1 0 0 0 90.63 0 1 0 0 1 92.00 0 1 0 1 0 93.25 0 1 0 1 1 94.63 0 1 1 0 0 96.00 0 1 1 0 1 97.25 0 1 1 1 0 98.63 0 1 1 1 1 100.00 1 0 0 0 0 80.00 1 0 0 0 1 81.25 1 0 0 1 0 82.63 1 0 0 1 1 84.00 1 0 1 0 0 85.25 1 0 1 0 1 86.63 1 0 1 1 0 88.00 1 0 1 1 1 89.25 -0.50% 1 1 0 0 0 90.63 1 1 0 0 1 92.00 1 1 0 1 0 93.25 1 1 0 1 1 94.63 1 1 1 0 0 96.00 1 1 1 0 1 97.25 1 1 1 1 0 98.63 1 1 1 1 1 100.00 SB_SRC OverClock % -20% -19% -17% -16% -15% -13% -12% -11% -9% -8% -7% -5% -4% -3% -1% 0% 20% -19% -17% -16% -15% -13% -12% -11% -9% -8% -7% -5% -4% -3% -1% 0% 1391D—02/02/09 9 ICS9LPRS480 Integrated Circuit Systems, Inc. Table3: 27Mhz_Spread and Frequency Selection Table SS Enable B2b1 SS3 Byte 4 bit 7 SS2 Byte 4 bit 6 SS1 Byte 4 bit 5 SS0 Byte 4 bit 4 27MHz_Spread (MHz) 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 27.00 27.00 27.00 27.00 27.00 27.00 27.00 27.00 27.00 27.00 27.00 27.00 27.00 27.00 27.00 27.00 27.00 27.00 27.00 27.00 27.00 27.00 27.00 27.00 27.00 27.00 27.00 27.00 27.00 27.00 27.00 27.00 1391D—02/02/09 10 Spread % (when enabled) No Spread -0.50 -1.00 -1.50 -2.00 -0.75 -1.25 -1.75 -2.25 +/-0.25 +/-0.5 +/-0.75 +/-1.0 +/-0.25 +/-0.5 +/-0.75 +/-1.0 Down Down Down Down Down Down Down Down Center Center Center Center Center Center Center Center ICS9LPRS480 Integrated Circuit Systems, Inc. Differential Output Power Management Table PD# CLKREQ# 1 0 1 X SMBus Register OE True output Complement Output Free-Run 0 X Enable Running X Low/20K 1 X Enable Running Disable Low/20K True output Complement Output CLKREQ# Selected Running Running Running Low Low/20K Low Running Low/20K Low Low Low/20K Low Note: 20K means 20Kohm Pull Down Singled-ended Power Management Table PD# SMBus Register OE 48MHz 27MHz HTT66MHz REF(2:0) 1 Enable Running Running Running Running 0 Enable Low Low Low Hi-Z 1391D—02/02/09 11 ICS9LPRS480 Integrated Circuit Systems, Inc. Absolute Maximum Rating PARAMETER SYMBOL CONDITIONS 3.3V Supply Voltage VDDxxx Storage Temperature Ts Ambient Operating Temp Tambient Case Temperature Tcase Input ESD protection HBM ESD prot 1 Guaranteed by design and characterization, not 100% tested in production. MIN TYP 3.3 MAX GND + 3.9V 150 70 115 UNITS V ° C °C °C V NOTES 1 1 1 1 1 TYP 3.3 MAX 3.465 VDD + 0.3 0.8 VDD + 0.3 0.4 VDD + 0.3 0.4 VDD + 0.3 0.4 5 UNITS V V V V V V V V V uA NOTES 1 1 1 1 1 1 1 1 1 1 -5 uA 1 -200 uA 1 -65 0 2000 Electrical Characteristics - Input/Supply/Common Output Parameters PARAMETER 3.3V Core Supply Voltage Input High Voltage Input Low Voltage Input High Voltage - SEL_27 Input Low Voltage - SEL_27 Input High Voltage - SEL_SATA Input Low Voltage - SEL_SATA Input High Voltage - SEL_HTT66 Input Low Voltage - SEL_HTT66 Input High Current SYMBOL VDDxxx VIH VIL VIH VIL VIH VIL VIH VIL I IH CONDITIONS* VDD = 3.3 V +/-5% VDD = 3.3 V +/-5% VDD = 3.3 V +/-5% VDD = 3.3 V +/-5% VDD = 3.3 V +/-5% VDD = 3.3 V +/-5% VDD = 3.3 V +/-5% VDD = 3.3 V +/-5% VIN = V DD VIN = 0 V; Inputs with no pullup resistors VIN = 0 V; Inputs with pull-up resistors MIN 3.135 2 VSS - 0.3 2 VSS - 0.3 2 VSS - 0.3 2 VSS - 0.3 -5 VIH_FS VDD = 3.3 V +/-5% 0.7 VDD + 0.3 V 1 VIL_FS VDD = 3.3 V +/-5% VSS - 0.3 0.35 V 1 225 mA 1 2 7 5 6 5 mA MHz nH pF pF pF 1 2 1 1 1 1 1.8 ms 1 33 kHz 1 300 us 1 I IL1 Input Low Current I IL2 Low Threshold InputHigh Voltage Low Threshold InputLow Voltage Operating Current IDD3.3OP Powerdown Current Input Frequency Pin Inductance IDD3.3PD Fi Lpin CIN COUT CINX Input Capacitance Clk Stabilization Modulation Frequency Tdrive_PD TSTAB 3.3V VDD current, all outputs driven all diff pairs low/low VDD = 3.3 V +/-5% Logic Inputs Output pin capacitance X1 & X2 pins From VDD Power-Up or deassertion of PD to 1st clock Triangular Modulation CPU output enable after PD de-assertion PD fall time of PD rise time of 14.31818 30 Tfall_PD 5 ns 1 Trise_PD 5 ns 1 SMBus Voltage VDDSMB 2.7 5.5 V 1 Low-level Output Voltage VOLSMB @ IPULLUP 0.4 V 1 Current sinking at 4 6 mA 1 IPULLUPSMB VOL = 0.4 V SMBCLK/SMBDAT (Max VIL - 0.15) to TRSMB 1000 ns 1 Clock/Data Rise Time (Min VIH + 0.15) SMBCLK/SMBDAT (Min VIH + 0.15) to TFSMB 300 ns 1 Clock/Data Fall Time (Max VIL - 0.15) *TA = 0 - 70°C; Supply Voltage VDD = 3.3 V +/-5% 1 Guaranteed by design and characterization, not 100% tested in production. 2 Input frequency should be measured at the REF pin and tuned to ideal 14.31818MHz to meet ppm frequency accuracy on PLL outputs. 1391D—02/02/09 12 ICS9LPRS480 Integrated Circuit Systems, Inc. AC Electrical Characteristics - Low-Power DIF Outputs: CPUKG and HTT PARAMETER Crossing Point Variation Frequency - CPU Frequency - HTT Long Term Accuracy Rising Edge Slew Rate Falling Edge Slew Rate Slew Rate Variation CPU, DIF HTT Jitter - Cycle to Cycle Accumulated Jitter Peak to Peak Differential Voltage Differential Voltage Duty Cycle SYMBOL ∆VCROSS fCPU fHTT ppm SRISE SFALL tSLVAR CPUJC2C tJACC VD(PK-PK) VD DCYC CONDITIONS Single-ended Measurement Spread Specturm On Spread Specturm On Spread Specturm Off Differential Measurement Differential Measurement Single-ended Measurement Differential Measurement See Notes Differential Measurement Differential Measurement Differential Measurement Amplitude Variation ∆VD Change in VD DC cycle to cycle MIN TYP 400 200 45 MAX 140 200 100 +300 10 10 20 150 1 2400 1200 55 UNITS mV MHz MHz ppm V/ns V/ns % ps ns mV mV % NOTES 1,2,5 1,3 1,3 1,11 1,4 1,4 1 1,6 1,7 1,8 1,9 1 -75 75 mV 1,10 198.8 99.4 -300 0.5 0.5 CPUSKEW10 CPU[1:0] Skew Differential Measurement 100 ps Notes on Electrical Characteristics: 1 Guaranteed by design and characterization, not 100% tested in production. 2 Single-ended measurement at crossing point. Value is maximum – minimum over all time. DC value of common mode is not important 3 Minimum Frequency is a result of 0.5% down spread spectrum 4 Differential measurement through the range of ±100 mV, differential signal must remain monotonic and within slew rate spec when crossing through this region. 5 Defined as the total variation of all crossing voltages of CLK rising and CLK# falling. Matching applies to rising edge rate of CLK and falling edge of CLK#. It is measured using a +/-75mV window centered on the average cross point where CLK meets CLK#. 6 Max difference of tCYCLE between any two adjacent cycles. 7 1 Accumulated tjc.over a 10 µs time period, measured with JIT2 TIE at 50ps interval. 8 VD(PK-PK) is the overall magnitude of the differential signal. VD(min) is the amplitude of the ring-back differential measurement, guaranteed by design, that ring-back will not cross 0V VD. VD(max) is the largest amplitude allowed. 10 The difference in magnitude of two adjacent VD_DC measurements. VD_DC is the stable post overshoot and ring-back part of the 9 11 All Long Term Accuracy and Clock Period specifications are guaranteed assuming that REFOUT is at 14.31818MHz AC Electrical Characteristics - Low-Power DIF Outputs: SRC, SB_SRC and ATIG PARAMETER SYMBOL CONDITIONS MIN MAX UNITS NOTES Rising Edge Slew Rate tSLR Differential Measurement 2.5 TYP 8 V/ns 1,2 Falling Edge Slew Rate tFLR Differential Measurement 2.5 8 V/ns 1,2 % mV mV mV mV mV % ps ps ps ps 1 1 1 1 1,3,4 1,3,5 1 1 1 1 1 Single-ended Measurement 20 Slew Rate Variation t SLVAR Includes overshoot 1150 Maximum Output Voltage VHIGH Minimum Output Voltage VLOW Includes undershoot -300 Differential Voltage Swing VSWING Differential Measurement 300 Single-ended Measurement 300 550 Crossing Point Voltage VXABS Crossing Point Variation VXABSVAR Single-ended Measurement 140 Duty Cycle DCYC Differential Measurement 45 55 SRC, ATIG, Jitter - Cycle to Cycle SRCJ C2C Differential Measurement 125 SRC[5:0] Skew SRCSKEW Differential Measurement 250 Differential Measurement 100 SB_SRC[1:0] Skew SRCSKEW ATIG[2:0] Skew SRCSKEW Differential Measurement 100 Notes on Electrical Characteristics: 1 Guaranteed by design and characterization, not 100% tested in production. 2 Slew rate measured through Vswing centered around differential zero 3 Vxabs is defined as the voltage where CLK = CLK# 4 Only applies to the differential rising edge (CLK rising and CLK# falling) 5 Defined as the total variation of all crossing voltages of CLK rising and CLK# falling. Matching applies to rising edge rate of 6 All Long Term Accuracy and Clock Period specifications are guaranteed assuming that REFOUT is at 14.31818MHz 1391D—02/02/09 13 CLK ICS9LPRS480 Integrated Circuit Systems, Inc. Electrical Characteristics - Single-ended HTT 66MHz Clock PARAMETER Long Accuracy SYMBOL ppm CONDITIONS MIN TYP MAX UNITS see Tperiod min-max values -300 300 ppm 66.67MHz output nominal 14.9955 15.0045 ns HTT66 Clock period Tperiod 66.67MHz output spread 14.9955 15.0799 ns Output High Voltage VOH IOH = -1 mA 1.6 1.8 V I OL = 1 mA 0 0.2 V Output Low Voltage VOL Rise Time t r1 VOL = 0.36 V, VOH = 1.44 V 1.5 ns VOH = 1.44 V, VOL = 0.36 V 1.5 ns Fall Time t f1 Duty Cycle dt1 VT = 0.9 V 45 55 % VT = 0.9 V 300 ps Jitter, Cycle to cycle tjcyc-cyc Jitter, Long Term t LTJ VT = 0.9 V 1 ns *TA = 0 - 70°C; Supply Voltage VDD = 3.3 V +/-5%, CL = 5 pF with Rs = 33Ω (unless otherwise specified) 1 Guaranteed by design and characterization, not 100% tested in production. 2 All Long Term Accuracy and Clock Period specifications are guaranteed with the assumption that REF is at 14.31818MHz NOTES 1,2 2 2 1 1 1 1 1 1 1 Electrical Characteristics - USB - 48MHz PARAMETER Long Accuracy Clock period Clock Low Time Clock High Time Output High Voltage Output Low Voltage SYMBOL ppm Tperiod Tlow Thigh VOH VOL CONDITIONS* MIN TYP see Tperiod min-max values -100 48.00MHz output nominal 20.8229 Measure from < 0.6V 9.3750 Measure from > 2.0V 9.3750 IOH = -1 mA 2.4 I OL = 1 mA -33 V OH @MIN = 1.0 V Output High Current I OH V OH@MAX = 3.135 V 30 VOL @ MIN = 1.95 V Output Low Current I OL VOL @ MAX = 0.4 V VOL = 0.4 V, VOH = 2.4 V 0.5 Rise Time tr_USB VOH = 2.4 V, VOL = 0.4 V 0.5 Fall Time tf_USB VT = 1.5 V 45 Duty Cycle dt1 VT = 1.5 V Group Skew tskew VT = 1.5 V tjcyc-cyc Jitter, Cycle to cycle *TA = 0 - 70°C; Supply Voltage VDD = 3.3 V +/-5%, CL = 5 pF with Rs = 33Ω (unless otherwise specified) 1 Guaranteed by design and characterization, not 100% tested in production. 2 ICS recommended and/or chipset vendor layout guidelines must be followed to meet this specification 1391D—02/02/09 14 MAX 100 20.8344 11.4580 11.4580 0.55 -33 38 1.5 1.5 55 250 130 UNITS ppm ns ns ns V V mA mA mA mA ns ns % ps ps NOTES 1,2 2 2 2 1 1 1 1 1 1 1 1 1 1 1,2 ICS9LPRS480 Integrated Circuit Systems, Inc. Electrical Characteristics - 27MHz PARAMETER SYMBOL CONDITIONS Long Accuracy ppm see Tperiod min-max values Clock period Output High Voltage(27SS, 27NSS) Output Low Voltage Tperiod VOH VOL 27.000MHz output nominal IOH = -1 mA I OL = 1 mA VOH = 1.0 V VOH = 3.135 V VOL = 1.95 V VOL = 0.4 V Rising/Falling edge rate VT @ 20%-80% VT = 1.5 V Long Term (10us) VT = 1.5 V Output High Current I OH Output Low Current I OL Edge Rate t slewr/f Duty Cycle dt1 tltj Jitter tjcyc-cyc MIN -50 -15 37.0365 2.1 TYP MAX 50 15 37.0376 27 ns V V mA mA mA mA NOTES 1,2 1,2,3 2 1,10 1 1,10 1,10 1,10 1,10 4 V/ns 1 55 300 200 % ps ps 1 1 1 UNITS ppm ns ns ns V V NOTES 1,2 2 2 2 1 1 mA 1 mA 1 ns ns ps % ps 1 1 1 1 1 0.55 -29 -23 29 1 45 2 UNITS ppm 1 Guaranteed by design and characterization, not 100% tested in production. Slew rate measured through Vswing centered around differential zero 3 Vxabs is defined as the voltage where CLK = CLK# 10 VDD = 3.3V 2 Electrical Characteristics - REF-14.318MHz PARAMETER Long Accuracy Clock period Clock Low Time Clock High Time Output High Voltage Output Low Voltage SYMBOL ppm Tperiod Tlow Thigh VOH VOL CONDITIONS MIN TYP MAX see Tperiod min-max values -300 300 14.318MHz output nominal 69.8270 69.8550 Measure from < 0.6V 30.9290 37.9130 Measure from > 2.0V 30.9290 37.9130 I OH = -1 mA 2.4 IOL = 1 mA 0.4 VOH @MIN = 1.0 V, -29 -23 Output High Current IOH VOH@MAX = 3.135 V VOL @MIN = 1.95 V, 29 27 Output Low Current IOL VOL @MAX = 0.4 V Rise Time t r1 VOL = 0.4 V, VOH = 2.4 V 1 1.5 Fall Time t f1 VOH = 2.4 V, VOL = 0.4 V 1 1.5 Skew tsk1 VT = 1.5 V 250 Duty Cycle dt1 VT = 1.5 V 45 55 Jitter tjcyc-cyc VT = 1.5 V 300 *TA = 0 - 70°C; Supply Voltage VDD = 3.3 V +/-5%, CL = 5 pF with Rs = 33Ω (unless otherwise specified) 1 Guaranteed by design and characterization, not 100% tested in production. 2 All Long Term Accuracy and Clock Period specifications are guaranteed assuming that REFOUT is at 14.31818MHz 1391D—02/02/09 15 ICS9LPRS480 Integrated Circuit Systems, Inc. General SMBus serial interface information for the ICS9LPRS480 How to Write: How to Read: 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 • • • • • • • • • • • • • • • • • • • • • • 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 Index Block Write Operation Controller (Host) starT bit T Slave Address D2(H) WR WRite Index Block Read Operation Controller (Host) T starT bit Slave Address D2(H) WR WRite ICS (Slave/Receiver) ICS (Slave/Receiver) ACK ACK Beginning Byte = N Beginning Byte = N ACK ACK RT Repeat starT Slave Address D3(H) RD ReaD Data Byte Count = X ACK Beginning Byte N ACK X Byte ACK Data Byte Count = X ACK Beginning Byte N Byte N + X - 1 ACK X Byte ACK P stoP bit Byte N + X - 1 N P 1391D—02/02/09 16 Not acknowledge stoP bit ICS9LPRS480 Integrated Circuit Systems, Inc. SMBus Table: Latched Input Readback Output Enable Control Register Byte 0 Name Description Type 0 1 Bit 7 SEL_HTT66 readback Hypertransport Select R 100MHz Differential HTT clock Bit 6 SEL_SATA readback SATA Select R SRC6/SATA pair is SRC SS capable output Bit 5 REF0_OE Output Enable RW Hi-Z 66 MHz 3.3V Singleended HTT clock SRC6/SATA pair is SATA non-spread output Enabled Bit 4 REF1_OE Output Enable RW Hi-Z Enabled Bit 3 REF2_OE Output Enable RW Hi-Z Enabled Reserved Bit 2 Byte Bit 1 48MHz_0_OE Bit 0 SS_Enable Byte SMBus Table:Output Enable Control Register Name Control Function 1 Bit Bit Bit Bit Bit Bit Bit Bit Output Enable Spread Spectrum Enable (CPU, SRC, SB_SRC, ATIG) 7 6 5 4 3 2 1 0 SRC7/27MHz_OE SRC6/SATA_OE Enable SRC4_OE SRC3_OE SRC2_OE SRC1_OE SRC0_OE Bit 7 Bit 6 SB_SRC1_OE SB_SRC0_OE Byte ATIG1_OE ATIG0_OE RW Spread Off Spread On 0 Type RW RW Bit 1 27MHz_SS_Enable Bit 0 Reserved RW 0 1 Default Low/Low Low/Low Enabled Enabled Low/Low Low/Low Low/Low Low/Low Low/Low Enabled Enabled Enabled Enabled Enabled 1 1 0 1 1 1 1 1 1 Default Enabled Enabled 1 1 7 6 5 4 CPU0_OE SEL_27 readback HTT/66MHz_OE 1 1 Enabled Enabled 1 1 RW Spread Off Spread On 0 RW - - X Bit 3 CPU_FS3 CPU Frequency Select RW Bit 2 CPU_FS2 CPU Frequency Select RW Bit 1 CPU_FS1 CPU Frequency Select RW Bit 0 CPU_FS0 CPU Frequency Select LSB RW 17 These bits program the slew rate of the single ended outputs. The maximum slew rate is 1.9V/ns and the minimum slew rate is 1.1V/ns. The slew rate selection is as follows: 11 = 1.9V/ns 10 = 1.6V/ns 01 = 1.1V/ns 00 = tristated Low/Low Low/Low Output enable RW SRC7/27MHz Select R Reserved Output Enable RW 1391D—02/02/09 Low/Low Low/Low RW RW SMBus Table: CPU/HTT Frequency Control Register Name Control Function Type 3 Bit Bit Bit Bit Output Enable Output Enable Spread Spectrum Enable 27MHz_SS Reserved 1 1 Bit 4 Bit 3 Bit 2 1 Enabled RW RW Reserved Output Enable RW Output Enable RW Output Enable RW Output Enable RW Output Enable RW Slew Rate Control 1 Low Bit 5 48MHz_0_Slew Rate Latch RW Output Enable Output Enable Output Enable Output Enable Latch 0 SMBus Table: Output Enable and 48MHz Slew Rate Control Register Name Control Function Type 0 2 Default 0 1 Default Low/Low SRC7 Output Enable 27MHz Output Low/Low Enabled 1 Latch 1 1 See CPU/HTT/SRC/ATIG Frequency Select Table Default value corresponds to 200MHz. Note that the HTT frequency tracks the CPU frequency. 0 1 1 1 ICS9LPRS480 Integrated Circuit Systems, Inc. Byte Byte SMBus Table: SB_SRC Frequency Control Register Name Control Function Type 4 RW RW RW Default Bit 4 S0 Bit 3 SB_SRC_FS3 SB_SRC Frequency Select RW Bit 2 SB_SRC_FS2 SB_SRC Frequency Select RW Bit 1 SB_SRC_FS1 SB_SRC Frequency Select RW 1 Bit 0 SB_SRC_FS0 SB_SRC Freq. Select LSB RW 1 27_SSC Spread Select RW SMBus Table: 27MHz Slew Rate Control Register Name Control Function Type 5 27M_SS_Slew Rate Slew Rate Control RW Bit 6 Bit 5 27M_NS_Slew Rate Slew Rate Control RW Bit 4 Bit Bit Bit Bit 3 2 1 0 7 6 5 4 3 2 1 0 SB_SRC Source Selection RW Reserved Reserved Reserved SRC Diff AMP SRC Diff AMP CPU Diff AMP CPU Diff AMP SB_SRC Diff AMP SB_SRC Diff AMP 7 6 5 4 3 2 1 0 RID3 RID2 RID1 RID0 VID3 VID2 VID1 VID0 Type REVISION ID VENDOR ID 1391D—02/02/09 18 S[1:0]: 00 = -0.5% Default, 01 =1.0%, 10 = -1.5%, 11 = -2%. See Table 3: 27Mhz_Spread, LCDCLK Spread and Frequency Selection Table for additional selections. 0 0 0 0 1 See SB_SRC Frequency Select Table. 0 1 These bits program the slew rate of the single ended outputs. The maximum slew rate is 1.9V/ns and the minimum slew rate is 1.1V/ns. The slew rate selection is as follows: 11 = 1.9V/ns 10 = 1.6V/ns 01 = 1.1V/ns 00 = tristated SB_SRC PLL 1 Default 1 1 1 1 SRC PLL 1 0 0 0 0 1 Default 00 = 700mV 10 = 900mV 00 = 700mV 10 = 900mV 00 = 700mV 10 = 900mV 01 = 800mV 11 = 1000mV 01 = 800mV 11 = 1000mV 01 = 800mV 11 = 1000mV 0 1 0 1 0 1 X X Type 0 1 Default R R R R R R R R - - 0 0 0 1 0 0 0 1 SRC Differential output RW Amplitude Control RW CPU Differential output RW Amplitude Control RW SB_SRC Differential output RW Amplitude Control RW Reserved Reserved SMBus Table: Vendor & Revision ID Register Name Control Function 7 Bit Bit Bit Bit Bit Bit Bit Bit SB_SRC Source SMBus Table: I/O Vout Control Register Name Control Function 6 Bit Bit Bit Bit Bit Bit Bit Bit Byte 1 S3 S2 S1 Bit 7 Byte 0 Bit 7 Bit 6 Bit 5 ICS9LPRS480 Integrated Circuit Systems, Inc. Byte Bit Bit Bit Bit Bit Bit Bit Bit Byte SMBus Table: Byte Count Register Name Control Function 8 7 6 5 4 3 2 1 0 1 Determines the number of bytes that are read back from the device. Default is 0F hex. Default 0 0 0 0 1 1 1 1 0 1 Default HWD_EN Watchdog Hard Alarm Enable RW Disable and Reload Hartd Alarm Timer, Clear WD Hard status bit. Enable Timer 0 Bit 6 SWD_EN Watchdog Soft Alarm Enable RW Disable Enable 0 Bit 5 Bit 4 WD Hard Status WD Soft Status R R Normal Normal Alarm Alarm X X Bit 3 WDTCtrl 290ms Base 1160ms Base Bit 2 Bit 1 Bit 0 HWD2 HWD1 HWD0 WD Hard Alarm Status WD Soft Alarm Status Watch Dog Alarm Time base Control WD Hard Alarm Timer Bit 2 WD Hard Alarm Timer Bit 1 WD Hard Alarm Timer Bit 0 10 SWD2 SWD1 SWD0 WD SF4 WD SF3 WD SF2 WD SF1 Bit 0 WD SF0 11 Bit Bit Bit Bit Bit Bit Bit Bit 7 6 5 4 3 2 1 0 RW RW RW RW These bits represent the number of Watch Dog Time Base Units that pass before the Watch Alarm expires. Default is 7 X 290ms = 2s. SMBus Table: WD Timer Safe Frequency Control Register Name Control Function Type 7 6 5 4 3 2 1 Bit Bit Bit Bit Bit Bit Bit Byte 0 SMBus Table: WatchDog Timer Control Register Name Control Function Type 9 Bit 7 Byte BC5 BC4 BC3 BC2 BC1 BC0 Type Reserved Reserved Byte Count bit 5 (MSB) RW Byte Count bit 4 RW Byte Count bit 3 RW Byte Count bit 2 RW Byte Count bit 1 RW Byte Count bit 0 (LSB) RW WD Soft Alarm Timer Bit 2 WD Soft Alarm Timer Bit 1 WD Soft Alarm Timer Bit 0 Watch Dog Safe Freq Programming bits RW RW RW RW RW RW RW RW SMBus Table: CPU PLL Frequency Control Register Name Control Function Type N Div2 N Div1 M Div5 M Div4 M Div3 M Div2 M Div1 M Div0 N Divider Prog bit 2 N Divider Prog bit 1 M Divider Programming bits 1391D—02/02/09 19 RW RW RW RW RW RW RW RW 0 1 These bits represent the number of Watch Dog Time Base Units that pass before the Watch Alarm expires. Default is 7 X 290ms = 2s. These bits configure the safe frequency that the device returns to if the Watchdog Timer expires. The value show here corresponds to the power up default of the device. See the various Frequency Select Tables for the exact frequencies. 0 1 The decimal representation of M and N Divider in Byte 11 and 12 will configure the VCO frequency. Default at power up = Byte 3 Rom table. VCO Frequency = 14.318 x Ndiv(10:0)/Mdiv(5:0) . 0 1 1 1 Default 1 1 1 0 0 1 1 1 Default X X X X X X X X ICS9LPRS480 Integrated Circuit Systems, Inc. Byte 12 7 6 5 4 N Div10 N Div9 N Div8 N Div7 Bit 3 N Div6 Bit 2 Bit 1 Bit 0 N Div5 N Div4 N Div3 Bit Bit Bit Bit Byte 13 Bit Bit Bit Bit Bit Bit Bit Bit Byte 7 6 5 4 3 2 1 0 14 Bit Bit Bit Bit Bit Bit Bit Bit Byte 7 6 5 4 3 2 1 0 15 Bit 7 Byte SMBus Table: CPU PLL Frequency Control Register Name Control Function Type N Divider Programming b(10:3) RW RW RW RW RW RW RW RW 0 The decimal representation of M and N Divider in Byte 11 and 12 will configure the VCO frequency. Default at power up = Byte 3 Rom table. VCO Frequency = 14.318 x Ndiv(10:0)/Mdiv(5:0) . SMBus Table: CPU PLL Spread Spectrum Control Register Name Control Function Type SSP7 SSP6 SSP5 SSP4 SSP3 SSP2 SSP1 SSP0 Spread Spectrum Programming b(7:0) RW RW RW RW RW RW RW RW SSP14 SSP13 SSP12 SSP11 SSP10 SSP9 SSP8 SMBUS Table: CPU Output Divider Register Name Control Function CPU NDiv0 LSB N Divider Programming Type RW 0 1 Bytes 13 and 14 set the CPU/HTT/SRC/ATIG spread pecentage.Please contact ICS for the appropriate values. SMBus Table: CPU PLL Spread Spectrum Control Register Name Control Function Type Reserved RW RW RW Spread Spectrum RW Programming b(14:8) RW RW RW 1 0 1 Bytes 13 and 14 set the CPU/HTT/SRC/ATIG spread pecentage.Please contact ICS for the appropriate values. 0 1 CPU M/N programming. Default X X X X X X X X Default X X X X X X X X Default X X X X X X X X Default X Bit 6 Reserved X Bit 5 Reserved X Bit 4 Reserved Bit 3 CPUDiv3 Bit 2 CPUDiv2 Bit 1 CPUDiv1 Bit 0 CPUDiv0 16 Bit Bit Bit Bit Bit Bit Bit Bit 7 6 5 4 3 2 1 0 CPU Divider Ratio Programming Bits 0000:/2 ; 0100:/4 1000:/8 ; 1100:/16 X RW 0001:/3 ; 0101:/6 1001:/12 ; 1101:/24 X RW 0010:/5 ; 0110:/10 1010:/20 ; 1110:/40 X RW 0011:/15 ; 0111:/18 1011:/36 ; 1111:/72 X 0 1 Default SMBUS Table: SB_SRC Frequency Control Register Name Control Function Type N Div2 N Div1 M Div5 M Div4 M Div3 M Div2 M Div1 M Div0 N Divider Prog bit 2 N Divider Prog bit 1 M Divider Programming bit (5:0) 1391D—02/02/09 20 X RW RW RW RW RW RW RW RW RW The decimal representation of M and N Divider in Byte 16 and 17 configure the SB_SRC VCO frequency. See M/N Caculation Tables for VCO frequency formulas. X X X X X X X X ICS9LPRS480 Integrated Circuit Systems, Inc. Byte 17 Bit Bit Bit Bit Bit Bit Bit Bit Byte 18 Bit Bit Bit Bit Bit Bit Bit Bit Byte 7 6 5 4 3 2 1 0 20 Bit Bit Bit Bit Bit Bit Bit Bit Byte 7 6 5 4 3 2 1 0 19 Bit Bit Bit Bit Bit Bit Bit Bit Byte 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 21 Bit Bit Bit Bit Bit Bit Bit Bit 7 6 5 4 3 2 1 0 SMBUS Table: SB_SRC Frequency Control Register Name Control Function Type N Div10 N Div9 N Div8 N Div7 N Div6 N Div5 N Div4 N Div3 N Divider Programming Byte16 bit(7:0) and Byte15 bit(7:6) RW RW RW RW RW RW RW RW 0 The decimal representation of M and N Divider in Byte 16 and 17 configure the SB_SRC VCO frequency. See M/N Caculation Tables for VCO frequency formulas. SMBUS Table: SB_SRC Spread Spectrum Control Register Name Control Function Type SSP7 SSP6 SSP5 SSP4 SSP3 SSP2 SSP1 SSP0 Spread Spectrum Programming bit(7:0) RW RW RW RW RW RW RW RW Spread Spectrum Programming bit(14:8) RW RW RW RW RW RW RW RW SMBUS Table: SB_SRC Output Divider Control Register Name Control Function Type SB_SRC NDiv0 SB_SRCDiv3 SB_SRCDiv2 SB_SRCDiv1 SB_SRCDiv0 LSB N Divider Programming RW Reserved Reserved Reserved RW SRC Divider Ratio RW Programming Bits RW RW SMBus Table: Device ID register Name Control Function Device ID7 Device ID6 Device ID5 Device ID4 Device ID3 Device ID2 Device ID1 Device ID0 Type R R R R R R R R Device ID 1391D—02/02/09 21 0 1 Bytes 18 and 19 set the the SB_SRC spread pecentages. Please contact ICS for the appropriate values. SMBUS Table: SB_SRC Spread Spectrum Control Register Name Control Function Type SSP15 SSP14 SSP13 SSP12 SSP11 SSP10 SSP9 SSP8 1 0 1 Bytes 18 and 19 set the the SB_SRC spread pecentages. Please contact ICS for the appropriate values. 0 1 SB_SRC M/N programming. Default X X X X X X X X Default X X X X X X X X Default X X X X X X X X Default 0000:/2 ; 0100:/4 0001:/3 ; 0101:/6 0010:/5 ; 0110:/10 0011:/15 ; 0111:/18 1000:/8 ; 1100:/16 1001:/12 ; 1101:/24 1010:/20 ; 1110:/40 1011:/36 ; 1111:/72 X X X X X X X X 0 1 Default 76 hex 0 1 1 1 0 1 1 0 ICS9LPRS480 Integrated Circuit Systems, Inc. Byte 22 Bit 7 Bit Bit Bit Bit Bit Bit Bit Byte 23 Bit Bit Bit Bit Bit Bit Bit Bit Byte 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 24 CPU/HTT/SRC/ATIG M/N En SB_SRC M/N En Reserved Reserved Reserved Reserved Reserved Reserved CPU/HTT/SRC/ATIG PLL M/N Prog. Enable SB_SRC M/N Prog. Enable Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved CLKREQ4# controls CLKREQ3# controls CLKREQ2# controls CLKREQ1# controls CLKREQ0# controls SRC4 SRC3 SRC2 SRC1 SRC0 M/N Prog. Disabled M/N Prog. Enabled 0 M/N Prog. Enabled - 0 0 0 0 X X X 0 1 Default Not Controlled Not Controlled Not Controlled Not Controlled Not Controlled Controlled Controlled Controlled Controlled Controlled 0 0 0 0 0 0 0 0 RW RW RW RW RW RW RW RW SMBus Table: Test Mode Configuration Register Name Control Function Type 0 1 Default All ouputs are REF/N 0 DIAG mode Enabled 0 R R R R Normal mode Reset forces B24[6:4,2,0] to 0 unlocked unlocked unlocked unlocked Locked Locked Locked Locked HW HW HW HW R Not Accurate Accurate HW Selects Test Mode RW Bit 6 DIAG Enable# DIAG enable CPU and LCD PLL RW CPU PLL_LOCK signal 27MHz PLL_LOCK signal Fixed PLL_LOCK signal SRC PLL_LOCK signal CPU PLL Lock Detect 27MHz PLL Lock Detect Fixed PLL Lock Detect Fixed PLL Lock Detect Frequency Check Primary PLL or external crystal Frequency Accuracy Bit 1 Bit 0 25 Bit 7 Bit 6 Bit 5 PWRGD Status Power on Reset Status SMBus Table:Slew Rate Select Register Name Control Function R HW Type 0 1 Default Reserved Reserved RW RW - - 0 0 REF2_Slew Rate Slew Rate Control RW REF1_Slew Rate Slew Rate Control RW Bit 2 Bit 1 Invalid voltage levels on Valid voltage levels any of the VDDs. exist on all the VDD. CKPWRGD is not CKPWRGD is asserted asserted or external and external XTAL is XTAL not detected. detected. Reserved Reserved Bit 4 Bit 3 Default M/N Prog. Disabled - Test_Md_Sel 5 4 3 2 1 RW SMBus Table: CLKREQ# Configuration Register Name Control Function Type Reserved Reserved Reserved CLKREQ4#_Enable CLKREQ3#_Enable CLKREQ2#_Enable CLKREQ1#_Enable CLKREQ0#_Enable 0 RW RW RW RW RW RW RW Bit 7 Bit Bit Bit Bit Byte SMBus Table: CLKREQ# Configuration Register Name Control Function Type REF0_Slew Rate Slew Rate Control Bit 0 1391D—02/02/09 22 RW These bits program the slew rate of the single ended outputs. The maximum slew rate is 1.9V/ns and the minimum slew rate is 1.1V/ns. The slew rate selection is as follows: 11 = 1.9V/ns 10 = 1.6V/ns 01 = 1.1V/ns 00 = tristated 1 1 1 1 1 1 ICS9LPRS480 Integrated Circuit Systems, Inc. (Ref. ) Seating Plane (N D - 1)x e (Ref. ) A1 Index Area A3 N L N Anvil Singulation 1 Top View (N E - 1)x e E2 (Ref. ) 2 Sawn Singulation b (Ref.) A D e (Typ.) 2 If N D & N E are Even 1 2 E2 OR E ND & NE Even e D2 2 ND & NE Odd Thermal Base D2 Chamfer 4x 0.6 x 0.6 max OPTIONAL C 0.08 C THERMALLY ENHANCED, VERY THIN, FINE PITCH QUAD FLAT / NO LEAD PLASTIC PACKAGE SYMBOL N ND NE DIMENSIONS (mm) SYMBOL A A1 A3 b e D x E BASIC D2 MIN. / MAX. E2 MIN. / MAX. L MIN. / MAX. 64L 64 16 16 Ordering Information 9LPRS480yKLFT MIN. MAX. 0.8 1.0 0 0.05 0.25 Reference 0.18 0.3 0.50 BASIC 9.00 x 9.00 7.00 7.25 7.00 7.25 0.30 0.50 *Due to package size constraints actual top side marking may differ from the full orderable part number. Example: XXXX y K LF T Designation for tape and reel packaging Lead Free, RoHS Compliant Package Type K = MLF Revision Designator Device Type 1391D—02/02/09 23 ICS9LPRS480 Integrated Circuit Systems, Inc. c N SYMBOL L E1 A A1 A2 b c D E E1 e L N α aaa E INDEX AREA 1 2 α D 6.10 mm. Body, 0.50 mm. Pitch TSSOP (240 mil) (20 mil) In Millimeters In Inches COMMON DIMENSIONS COMMON DIMENSIONS MIN MAX MIN MAX -1.20 -.047 0.05 0.15 .002 .006 0.80 1.05 .032 .041 0.17 0.27 .007 .011 0.09 0.20 .0035 .008 SEE VARIATIONS SEE VARIATIONS 8.10 BASIC 0.319 BASIC 6.00 6.20 .236 .244 0.50 BASIC 0.020 BASIC 0.45 0.75 .018 .030 SEE VARIATIONS SEE VARIATIONS 0° 8° 0° 8° -0.10 -.004 VARIATIONS A A2 N 64 A1 - Ce b D mm. MIN 16.90 D (inch) MAX 17.10 Reference Doc.: JEDEC Publication 95, MO-153 10-0039 SEATING PLANE aaa C Ordering Information 9LPRS480yGLFT Example: XXXX y G LF T Designation for tape and reel packaging Lead Free, RoHS Compliant Package Type G = TSSOP Revision Designator Device Type 1391D—02/02/09 24 MIN .665 MAX .673 ICS9LPRS480 Integrated Circuit Systems, Inc. Revision History Rev. A B C D Issue Date 7/8/2008 7/29/2008 9/18/2008 2/2/2009 1391D—02/02/09 Description Going to Release. Removed Table 4 and updated 27MHz electrical characteristics. Updated Input/Supply/Common Output Parameters. Changed Rs Value from 22 Ohm to 33 Ohm. Page # 10-11 12 14, 15 This product is protected by United States Patent NO. 7,342,420 and other patents. 25