PRELIMINARY INFORMATION ICS280 Triple PLL Field Prog. Spread Spectrum Clock Synthesizer Description Features • • • • • • • • • • • • The ICS280 field programmable spread spectrum clock synthesizer generates up to four high-quality, high-frequency clock outputs including multiple reference clocks from a low-frequency crystal input. It is designed to replace crystals, crystal oscillators and stand alone spread spectrum devices in most electronic systems. Using ICS’ VersaClockTM software to configure PLLs and outputs, the ICS280 contains a One-Time Programmable (OTP) ROM for field programmability. Programming features include input/output frequencies, spread spectrum amount and eight selectable configuration registers. Packaged as 16-pin TSSOP Eight addressable registers Replaces multiple crystals and oscillators Output frequencies up to 200 MHz at 3.3 V Configurable Spread Spectrum Modulation Input crystal frequency of 5 to 27 MHz Input clock frequency of 3 to 166 MHz Up to four reference outputs Operating voltages of 3.3 V Controllable output drive levels Advanced, low-power CMOS process Available in Pb (lead) free packaging Using Phase-Locked Loop (PLL) techniques, the device runs from a standard fundamental mode, inexpensive crystal, or clock. It can replace multiple crystals and oscillators, saving board space and cost. The ICS280 is also available in factory programmed custom versions for high-volume applications. Block Diagram VDD S2:S0 3 3 PLL1 with Spread Spectrum OTP ROM with PLL Values CLK1 Divide Logic and Output Enable Control PLL2 Crystal or Clock Input PLL3 CLK2 CLK3 X1/ICLK CLK4 Crystal Oscillator X2 GND External capacitors are required with a crystal input. 3 PDTS 1 MDS 280 C Integrated Circuit Systems, Inc. ● 525 Race Street, San Jose, CA 95126 Revision 062205 ● tel (408) 297-1201 ● www.icst.com PRELIMINARY INFORMATION ICS280 Triple PLL Field Prog. Spread Spectrum Clock Synthesizer Pin Assignment GND S0 S1 CLK2 GND 1 2 3 4 5 6 7 16 15 14 13 12 11 10 X1/ICLK 8 9 VDD CLK1 S2 VDD PDTS GND CLK4 CLK3 VDD X2 16 pin (173 mil) TSSOP Pin Descriptions Pin Number Pin Name Pin Type 1 GND Power Connect to ground. 2 S0 Input Select pin 0. Internal pull-up resistor. Pin Description 3 S1 Input 4 VDD Power Select pin 1. Internal pull-up resistor. Connect to +3.3 V. 5 CLK1 Output Output clock 1. Weak internal pull-down when tri-state. 6 CLK2 Output Output clock 2. Weak internal pull-down when tri-state. 7 GND Power Connect to ground. 8 X1/ICLK XI Crystal input. Connect this pin to a crystal or external input clock. 9 X2 XO 10 VDD Power Crystal Output. Connect this pin to a crystal. Float for clock input. Connect to +3.3 V. 11 CLK3 Output Output clock 3. Weak internal pull-down when tri-state. 12 CLK4 Output Output clock 4. Weak internal pull-down when tri-state. 13 GND Power Connect to ground. 14 PDTS Input 15 VDD Power Power-down tri-state. Powers down entire chip and tri-states clock outputs when low. Internal pull-up resistor. Connect to +3.3 V. 16 S2 Input Select pin 2. Internal pull-up resistor. 2 MDS 280 C Integrated Circuit Systems, Inc. ● 525 Race Street, San Jose, CA 95126 Revision 062205 ● tel (408) 297-1201 ● www.icst.com PRELIMINARY INFORMATION ICS280 Triple PLL Field Prog. Spread Spectrum Clock Synthesizer External Components set within the range of M = 1 to 1024 and N = 1 to 32,895. The ICS280 requires a minimum number of external components for proper operation. The ICS280 also provides separate output divide values, from 2 through 63, to allow the two output clock banks to support widely differing frequency values from the same PLL. Series Termination Resistor Clock output traces over one inch should use series termination. To series terminate a 50Ω trace (a commonly used trace impedance), place a 33Ω resistor in series with the clock line, as close to the clock output pin as possible. The nominal impedance of the clock output is 20Ω. Each output frequency can be represented as: OutputFreq = REFFreq ----⋅M N Output Drive Control Decoupling Capacitors As with any high-performance mixed-signal IC, the ICS280 must be isolated from system power supply noise to perform optimally. Decoupling capacitors of 0.01µF must be connected between each VDD and the PCB ground plane. For optimum device performance, the decoupling capacitor should be mounted on the component side of the PCB. Avoid the use of vias on the decoupling circuit. Crystal Load Capacitors The device crystal connections should include pads for small capacitors from X1 to ground and from X2 to ground. These capacitors are used to adjust the stray capacitance of the board to match the nominally required crystal load capacitance. Because load capacitance can only be increased in this trimming process, it is important to keep stray capacitance to a minimum by using very short PCB traces (and no vias) been the crystal and device. Crystal capacitors must be connected from each of the pins X1 and X2 to ground. The value (in pF) of these crystal caps should equal (CL -6 pF)*2. In this equation, CL= crystal load capacitance in pF. Example: For a crystal with a 16 pF load capacitance, each crystal capacitor would be 20 pF [(16-6) x 2] = 20. The ICS270 has two output drive settings. Low drive should be selected when outputs are less than 100 MHz. High drive should be selected when outputs are greater than 100 MHz. (Consult the AC Electrical Characteristics for output rise and fall times for each drive option.) ICS VersaClock Software ICS applies years of PLL optimization experience into a user friendly software that accepts the user’s target reference clock and output frequencies and generates the lowest jitter, lowest power configuration, with only a press of a button. The user does not need to have prior PLL experience or determine the optimal VCO frequency to support multiple output frequencies. VersaClock software quickly evaluates accessible VCO frequencies with available output divide values and provides an easy to understand, bar code rating for the target output frequencies. The user may evaluate output accuracy, performance trade-off scenarios in seconds. Spread Spectrum Modulation The architecture of the ICS280 allows the user to easily configure the device to a wide range of output frequencies, for a given input reference frequency. The ICS280 utilizes frequency modulation (FM) to distribute energy over a range of frequencies. By modulating the output clock frequencies, the device effectively lowers energy across a broader range of frequencies; thus, lowering a system’s electromagnetic interference (EMI). The modulation rate is the time from transitioning from a minimum frequency to a maximum frequency and then back to the minimum. The frequency multiplier PLL provides a high degree of precision. The M/N values (the multiplier/divide values available to generate the target VCO frequency) can be Spread Spectrum Modulation can be applied as either “center spread” or “down spread”. During center spread modulation, the deviation from the target frequency is ICS280 Configuration Capabilities 3 MDS 280 C Integrated Circuit Systems, Inc. ● 525 Race Street, San Jose, CA 95126 Revision 062205 ● tel (408) 297-1201 ● www.icst.com PRELIMINARY INFORMATION ICS280 Triple PLL Field Prog. Spread Spectrum Clock Synthesizer equal in the positive and negative directions. The effective average frequency is equal to the target frequency. In applications where the clock is driving a component with a maximum frequency rating, down spread should be applied. In this case, the maximum frequency, including modulation, is the target frequency. The effective average frequency is less than the target frequency. The ICS280 operates in both center spread and down spread modes. For center spread, the frequency can be modulated between ±0.125% to ±2.0%. For down spread, the frequency can be modulated between -0.25% to -4.0%. Both output frequency banks will utilize identical spread spectrum percentage deviations and modulation rates, if a common VCO frequency can be identified. Spread Spectrum Modulation Rate The spread spectrum modulation frequency applied to the output clock frequency may occur at a variety of rates. For applications requiring the driving of “down-circuit” PLLs, Zero Delay Buffers, or those adhering to PCI standards, the spread spectrum modulation rate should be set to 30-33 kHz. For other applications, a 120 kHz modulation option is available. Absolute Maximum Ratings Stresses above the ratings listed below can cause permanent damage to the ICS280. These ratings, which are standard values for ICS commercially rated parts, are stress ratings only. Functional operation of the device at these or any other conditions above those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods can affect product reliability. Electrical parameters are guaranteed only over the recommended operating temperature range. Parameter Condition Min. Supply Voltage, VDD Referenced to GND Inputs Referenced to GND Clock Outputs Referenced to GND Max. Units 7 V -0.5 VDD+0.5 V -0.5 VDD+0.5 V -65 150 °C 260 °C 125 °C Storage Temperature Soldering Temperature Typ. Max 10 seconds Junction Temperature Recommended Operation Conditions Parameter Min. Typ. Max. Units Ambient Operating Temperature (ICS280PG/PGLF) 0 +70 °C Ambient Operating Temperature (ICS280PGI/PGILF) -40 +85 °C Power Supply Voltage (measured in respect to GND) +3.135 +3.465 V 4 ms +3.3 Power Supply Ramp Time 4 MDS 280 C Integrated Circuit Systems, Inc. ● 525 Race Street, San Jose, CA 95126 Revision 062205 ● tel (408) 297-1201 ● www.icst.com PRELIMINARY INFORMATION ICS280 Triple PLL Field Prog. Spread Spectrum Clock Synthesizer DC Electrical Characteristics Unless stated otherwise, VDD = 3.3 V ±5%, Ambient Temperature -40 to +85°C Parameter Symbol Operating Voltage Conditions Min. VDD Typ. 3.135 Max. Units 3.465 V Config. Dependent - See VersaClockTM Estimates Operating Supply Current Input High Voltage IDD mA Four 33.3333 MHz outs, VDD=3.3V; PDTS = 1, no load, Note 1 22 mA 500 µA V Input High Voltage VIH PDTS = 0, no load S2:S0 Input Low Voltage VIL S2:S0 Input High Voltage, PDTS VIH Input Low Voltage, PDTS VIL Input High Voltage VIH ICLK Input Low Voltage VIL ICLK Output High Voltage (CMOS High) VOH IOH = -4 mA Output High Voltage VOH IOH = -8 mA (Low Drive); IOH = -12 mA (High Drive) Output Low Voltage VOL IOL = 8 mA (Low Drive); IOL = 12 mA (High Drive) Short Circuit Current IOS Low Drive ±40 High Drive ±70 mA 20 Ω VDD/2+1 0.4 VDD-0.5 V V 0.4 VDD/2+1 V V VDD/2-1 V VDD-0.4 V 2.4 V 0.4 V Nom. Output Impedance ZO Internal pull-up Resistor RPUS S2:S0, PDTS 190 kΩ Internal pull-down Resistor RPD CLK outputs 120 kΩ Input Capacitance CIN Inputs 4 pF Note 1: Example with 25 MHz crystal input, four unloaded 33.3 MHz outputs. 5 MDS 280 C Integrated Circuit Systems, Inc. ● 525 Race Street, San Jose, CA 95126 Revision 062205 ● tel (408) 297-1201 ● www.icst.com PRELIMINARY INFORMATION ICS280 Triple PLL Field Prog. Spread Spectrum Clock Synthesizer AC Electrical Characteristics Unless stated otherwise, VDD = 3.3 V ±5%, Ambient Temperature -40 to +85° C Parameter Symbol Input Frequency FIN Conditions Min. Typ. Max. Units Fundamental crystal 5 27 MHz Clock Input 3 166 MHz 0.314 200 MHz Output Frequency Output Rise/Fall Time tOF 80% to 20%, high drive, Note 1 1.0 ns Output Rise/Fall Time tOF 80% to 20%, low drive, Note 1 2.0 ns Duty Cycle Note 2 Output Frequency Synthesis Error Configuration Dependent Power-up Time PLL lock-time from power-up One Sigma Clock Period Jitter Maximum Absolute Jitter tja 40 49-51 60 TBD % ppm 4 10 ms PDTS goes high until stable CLK output, Spread Spectrum Off 0.2 2 ms PDTS goes high until stable CLK output, Spread Spectrum On 4 7 ms Configuration Dependent 50 ps Deviation from Mean. Configuration Dependent +200 ps Note 1: Measured with 15 pF load. Note 2: Duty Cycle is configuration dependent. Most configurations are min 45% / max 55%. Thermal Characteristics Parameter Symbol Thermal Resistance Junction to Ambient Thermal Resistance Junction to Case Min. Typ. Max. Units θJA Still air 78 °C/W θJA 1 m/s air flow 70 °C/W θJA 3 m/s air flow 68 °C/W 37 °C/W θJC 6 MDS 280 C Integrated Circuit Systems, Inc. Conditions ● 525 Race Street, San Jose, CA 95126 Revision 062205 ● tel (408) 297-1201 ● www.icst.com PRELIMINARY INFORMATION ICS280 Triple PLL Field Prog. Spread Spectrum Clock Synthesizer Marking Diagrams Marking Diagrams (Pb free) 16 16 9 9 280PGL ###### YYWW 280PG ###### YYWW 1 8 1 8 16 9 16 9 280PGIL ###### YYWW 280PGI ###### YYWW 1 1 8 8 Notes: 1. ###### is the lot number. 2. YYWW is the last two digits of the year and week that the part was assembled. 3. “I” denotes industrial temperature range (if applicable). 4. “L” denotes Pb (lead) free package. 5. Bottom marking: country of origin. 7 MDS 280 C Integrated Circuit Systems, Inc. ● 525 Race Street, San Jose, CA 95126 Revision 062205 ● tel (408) 297-1201 ● www.icst.com PRELIMINARY INFORMATION ICS280 Triple PLL Field Prog. Spread Spectrum Clock Synthesizer Package Outline and Package Dimensions (16-pin TSSOP, 173 Mil. Body) Package dimensions are kept current with JEDEC Publication No. 95 24 Millimeters Symbol E1 INDEX AREA Min A A1 A2 b C D E E1 e L α E 1 2 D Inches Max Min — 1.20 0.05 0.15 0.80 1.05 0.19 0.30 0.09 0.20 4.90 5.10 6.40 BASIC 4.30 4.50 0.65 Basic 0.45 0.75 0° 8° Max — .047 0.002 0.006 0.032 0.041 0.007 0.012 0.0035 0.008 0.193 0.201 0.252 BASIC 0.169 0.177 0.0256 Basic .018 .030 0° 8° A A2 A1 c - Ce SEATING PLANE b .10 (.004) L C Ordering Information Part / Order Number Marking Shipping Packaging Package Temperature Tubes 16-pin TSSOP 0 to +70°C ICS280PG ICS280PGI See page 7 Tubes 16-pin TSSOP -40 to +85°C ICS280PGLF Tubes 16-pin TSSOP 0 to +70°C ICS280PGILF Tubes 16-pin TSSOP -40 to +85°C Parts that are ordered with a "LF" suffix to the part number are the Pb-Free configuration and are RoHS compliant. While the information presented herein has been checked for both accuracy and reliability, Integrated Circuit Systems (ICS) assumes no responsibility for either its use or for the infringement of any patents or other rights of third parties, which would result from its use. No other circuits, patents, or licenses are implied. This product is intended for use in normal commercial applications. Any other applications such as those requiring extended temperature range, high reliability, or other extraordinary environmental requirements are not recommended without additional processing by ICS. ICS reserves the right to change any circuitry or specifications without notice. ICS does not authorize or warrant any ICS product for use in life support devices or critical medical instruments. VersaClockTM is a trademark of Integrated Circuit Systems, Inc. All rights reserved. 8 MDS 280 C Integrated Circuit Systems, Inc. ● 525 Race Street, San Jose, CA 95126 Revision 062205 ● tel (408) 297-1201 ● www.icst.com