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| 1W40S11-23 W40S11-23 Clock Buffer/Driver Features * Thirteen skew-controlled CMOS clock outputs (SDRAM0:12) * Supports three SDRAM DIMMs * Ideal for high-performance systems designed around Intel's latest chip set * SMBus serial configuration interface * Clock Skew between any two outputs is less than 250 ps * 1- to 5-ns propagation delay * DC to 133-MHz operation * Single 3.3V supply voltage * Low power CMOS design packaged in a 28-pin, 300-mil SOIC (Small Outline Integrated Circuit), 28-pin, 173-mil (Thin Shrink Small Outline Package), and 28-pin, 209-mil SSOP (Small Shrink Outline Package) Key Specifications Supply Voltages:........................................... VDD = 3.3V5% Operating Temperature:.................................... 0C to +70C Input Threshold: .................................................. 1.5V typical Maximum Input Voltage: .......................................VDD + 0.5V Input Frequency:............................................... 0 to 133 MHz BUF_IN to SDRAM0:12 Propagation Delay: ......1.0 to 5.0 ns Output Edge Rate:.............................................. >1.5 V/ns Output Clock Skew: .................................................. 250 ps Output Duty Cycle: .................................. 45/55% worst case Output Impedance:...............................................15 typical Output Type: ................................................ CMOS rail-to-rail Overview The Cypress W40S11-23 is a low-voltage, thirteen-output clock buffer. Output buffer impedance is approximately 15, which is ideal for driving SDRAM DIMMs. Block Diagram Pin Configuration SDATA SCLOCK Serial Port Device Control SDRAM0 SDRAM1 SDRAM2 SDRAM3 SDRAM4 SDRAM5 SDRAM6 SDRAM7 SDRAM8 SOIC VDD SDRAM0 SDRAM1 GND VDD SDRAM2 SDRAM3 GND BUF_IN SDRAM4 SDRAM5 SDRAM12 VDD SDATA[1] 1 2 3 4 5 6 7 8 9 10 11 12 13 14 28 27 26 25 24 23 22 21 20 19 18 17 16 15 VDD SDRAM11 SDRAM10 GND VDD SDRAM9 SDRAM8 GND VDD SDRAM7 SDRAM6 GND GND [1] SCLOCK BUF_IN SDRAM9 SDRAM10 SDRAM11 SDRAM12 Note: 1. Internal pull-up resistor of 250K on SDATA and SCLOCK inputs (not CMOS level). Cypress Semiconductor Corporation * 3901 North First Street * San Jose * CA 95134 * 408-943-2600 April 6, 2001 W40S11-23 Pin Definitions Pin Name SDRAM0:12 Pin No. 2, 3, 6, 7, 10, 11, 18, 19, 22, 23, 26, 27, 12 9 14 15 1, 5, 13, 20, 24, 28 4, 8, 16, 17, 21, 25 Pin Type O Pin Description SDRAM Outputs: Provides buffered copy of BUF_IN. The propagation delay from a rising input edge to a rising output edge is 1 to 5 ns. All outputs are skew controlled to within 250 ps of each other. Clock Input: This clock input has an input threshold voltage of 1.5V (typ). SMBus Data Input: Data should be presented to this input as described in the SMBus section of this data sheet. Internal 250-k pull-up resistor. SMBus Clock Input: The SMBus data clock should be presented to this input as described in the SMBus section of this data sheet. Internal 250-k pull-up resistor. Power Connection: Power supply for core logic and output buffers. Connected to 3.3V supply. Ground Connection: Connect all ground pins to the common system ground plane. BUF_IN SDATA SCLOCK VDD GND I I/O I P G Functional Description Output Drivers The W40S11-23 output buffers are CMOS type which deliver a rail-to-rail (GND to VDD) output voltage swing into a nominal Table 1. Byte Writing Sequence Byte Sequence 1 Byte Name Slave Address Bit Sequence 11010010 capacitive load. Thus output signaling is both TTL and CMOS level compatible. Nominal output buffer impedance is 15. Operation Data is written to the W40S11-23 in ten bytes of eight bits each. Bytes are written in the order shown in Table 1. Byte Description Commands the W40S11-23 to accept the bits in Data Bytes 0-6 for internal register configuration. Since other devices may exist on the same common serial data bus, it is necessary to have a specific slave address for each potential receiver. The slave receiver address for the W40S11-23 is 11010010. Register setting will not be made if the Slave Address is not correct (or is for an alternate slave receiver). Unused by the W40S11-23, bit values are ignored (Don't Care). This byte must be included in the data write sequence to maintain proper byte allocation. The Command Code Byte is part of the standard serial communication protocol and may be used when writing to another addressed slave receiver on the serial data bus. Unused by the W40S11-23, bit values are ignored (Don't Care). This byte must be included in the data write sequence to maintain proper byte allocation. The Byte Count Byte is part of the standard serial communication protocol and may be used when writing to another addressed slave receiver on the serial data bus. The data bits in these bytes set internal W40S11-23 registers that control device operation. The data bits are only accepted when the Address Byte bit sequence is 11010010, as noted above. For description of bit control functions refer to Table 2. Refer to Cypress Frequency Timing Generators. 2 Command Code Don't Care 3 Byte Count Don't Care 4 5 6 7 8 9 10 Data Byte 0 Data Byte 1 Data Byte 2 Data Byte 3 Data Byte 4 Data Byte 5 Data Byte 6 Refer to Table 2 Don't Care 2 W40S11-23 Writing Data Bytes Each bit in the data bytes control a particular device function. Bits are written MSB (most significant bit) first, which is bit 7. Table 2. Data Bytes 0-2 Serial Configuration Map[2] Affected Pin Bit(s) 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 Pin No. 11 10 N/A N/A 7 6 3 2 27 26 23 22 N/A N/A 19 18 N/A 12 N/A N/A N/A N/A N/A N/A Pin Name SDRAM5 SDRAM4 Reserved Reserved SDRAM3 SDRAM2 SDRAM1 SDRAM0 SDRAM11 SDRAM10 SDRAM9 SDRAM8 Reserved Reserved SDRAM7 SDRAM6 Reserved SDRAM12 Reserved Reserved Reserved Reserved Reserved Reserved Control Function Clock Output Disable Clock Output Disable (Reserved) (Reserved) Clock Output Disable Clock Output Disable Clock Output Disable Clock Output Disable Clock Output Disable Clock Output Disable Clock Output Disable Clock Output Disable (Reserved) (Reserved) Clock Output Disable Clock Output Disable (Reserved) Clock Output Disable (Reserved) (Reserved) (Reserved) (Reserved) (Reserved) (Reserved) 0 Low Low Low Low Low Low Low Low Low Low Low Low Low ------Data Byte 0 SDRAM Active/Inactive Register (1 = Enable, 0 = Disable) Active Active Active Active Active Active Active Active Active Active Active Active Active ------Bit Control 1 Table 2 gives the bit formats for registers located in Data Bytes 0-6. Data Byte 1 SDRAM Active/Inactive Register (1 = Enable, 0 = Disable) Data Byte 2 SDRAM Active/Inactive Register (1 = Enable, 0 = Disable) Note: 2. At power-up all SDRAM outputs are enabled and active. Program Reserved bits to a "0." 3 W40S11-23 How To Use the Serial Data Interface Electrical Requirements Figure 1 illustrates electrical characteristics for the serial interface bus used with the W40S11-23. Devices send data over the bus with an open drain logic output that can (a) pull the bus line LOW, or (b) let the bus default to logic 1. The pull-up resistor on the bus (both clock and data lines) establish a default logic 1. All bus devices generally have logic inputs to receive data. Although the W40S11-23 is a receive-only device (no data write-back capability), it does transmit an "acknowledge" data pulse after each byte is received. Thus, the SDATA line can both transmit and receive data. The pull-up resistor should be sized to meet the rise and fall times specified in AC parameters, taking into consideration total bus line capacitance. VDD VDD ~ 2k SERIAL BUS DATA LINE SERIAL BUS CLOCK LINE ~ 2k SDCLK CLOCK IN CLOCK OUT N DATA IN DATA OUT SDATA CLOCK IN N SCLOCK DATA IN DATA OUT SDATA N CHIP SET (SERIAL BUS MASTER TRANSMITTER) CLOCK DEVICE (SERIAL BUS SLAVE RECEIVER) Figure 1. Serial Interface Bus Electrical Characteristics 4 W40S11-23 Signaling Requirements As shown in Figure 2, valid data bits are defined as stable logic 0 or 1 condition on the data line during a clock HIGH (logic 1) pulse. A transitioning data line during a clock HIGH pulse may be interpreted as a start or stop pulse (it will be interpreted as a start or stop pulse if the start/stop timing parameters are met). A write sequence is initiated by a "start bit" as shown in Figure 3. A "stop bit" signifies that a transmission has ended. As stated previously, the W40S11-23 sends an "acknowledge" pulse after receiving eight data bits in each byte as shown in Figure 4. SDATA SCLOCK Valid Data Bit Change of Data Allowed Figure 2. Serial Data Bus Valid Data Bit SDATA SCLOCK Start Bit Stop Bit Figure 3. Serial Data Bus Start and Stop Bit 5 Signaling from System Core Logic Start Condition Stop Condition Command Code (Second Byte) 0 1 LSB 0 MSB LSB MSB MSB LSB Slave Address (First Byte) MSB 1 1 0 1 0 Byte Count (Third Byte) Last Data Byte (Last Byte) SDATA SCLOCK 1 2 3 4 5 6 7 8 A 1 2 3 4 5 6 7 8 A 1 2 3 4 1 2 3 4 5 6 7 8 A SDATA Figure 4. Serial Data Bus Write Sequence Acknowledgment Bit from Clock Device Signaling by Clock Device 6 tSPF tLOW tHIGH tR tF tDSU tDHD tSP tSPSU tSTHD tSPSU SDATA Figure 5. Serial Data Bus Timing Diagram SCLOCK tSTHD W40S11-23 W40S11-23 Absolute Maximum Ratings Stresses greater than those listed in this table may cause permanent damage to the device. These represent a stress rating only. Operation of the device at these or any other conditions Parameter VDD, VIN TSTG TA TB Description Voltage on any pin with respect to GND Storage Temperature Operating Temperature Ambient Temperature under Bias above those specified in the operating sections of this specification is not implied. Maximum conditions for extended periods may affect reliability. Rating -0.5 to +7.0 -65 to +150 0 to +70 -55 to +125 Unit V C C C DC Electrical Characteristics: TA = 0C to +70C, VDD = 3.3V5% Parameter IDD Logic Inputs VIL VIH IILEAK IILEAK VOL VOH IOL IOH CIN COUT LIN Input Low Voltage Input High Voltage Input Leakage Current, BUF_IN Input Leakage Current[3] Output Low Voltage Output High Voltage Output Low Current Output High Current Input Pin Capacitance Output Pin Capacitance Input Pin Inductance IOL = 1 mA IOH = -1 mA VOL = 1.5V VOH = 1.5V 3.1 65 70 100 110 160 185 5 6 7 GND-0.3 2.0 -5 -20 0.8 VDD+0.5 +5 +5 50 V V A A mV V mA mA pF pF nH Description 3.3V Supply Current Test Condition/Comments BUF_IN = 100 MHz Min. Typ. Max. 250 Unit mA Logic Outputs (SDRAM0:12) Pin Capacitance/Inductance Note: 3. SDATA and SCLOCK logic pins have 250-k internal pull-up resistors. 7 W40S11-23 AC Electrical Characteristics: TA = 0C to +70C, VDD = 3.3V 5% (Lump Capacitance Test Load = 30 pF) Parameter fIN tR tF tSR tSF tEN tDIS tPR tPF tD Zo tPR Description Input Frequency Output Rise Edge Rate Output Fall Edge Rate Output Skew, Rising Edges Output Skew, Falling Edges Output Enable Time Output Disable Time Rising Edge Propagation Delay Falling Edge Propagation Delay Duty Cycle AC Output Impedance Rising Edge Propagation Delay 1.0 Measured at 1.5V 1.0 1.0 1.0 1.0 45 15 5.0 Measured from 0.4V to 2.4V Measured from 2.4V to 0.4V Test Condition Min 0 1.5 1.5 Typ Max 133 4.0 4.0 250 250 8.0 8.0 5.0 5.0 55 Unit MHz V/ns V/ns ps ps ns ns ns ns % ns Ordering Information Ordering Code W40S11 Freq. Mask Code -23 Package Name G X H Package Type 28-pin SOIC (300 mils) 28-pin TSSOP (173 mil) 28-pin SSOP (209 mil) Document #: 38-00793-*B 8 W40S11-23 Package Diagrams 28-Pin Small Outline Integrated Circuit (SOIC, 0.300 inch) 9 W40S11-23 Package Diagrams (continued) 28-Pin Thin Shrink Small Outline Package (TSSOP, 173-mil) 10 W40S11-23 Package Diagrams (continued) 28-Pin Small Shrink Outline Package (SSOP, 209 mils) (c) Cypress Semiconductor Corporation, 2001. The information contained herein is subject to change without notice. Cypress Semiconductor Corporation assumes no responsibility for the use of any circuitry other than circuitry embodied in a Cypress Semiconductor product. Nor does it convey or imply any license under patent or other rights. Cypress Semiconductor does not authorize its products for use as critical components in life-support systems where a malfunction or failure may reasonably be expected to result in significant injury to the user. The inclusion of Cypress Semiconductor products in life-support systems application implies that the manufacturer assumes all risk of such use and in doing so indemnifies Cypress Semiconductor against all charges. |
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