CAT9534 8-bit I2C and SMBus I/O Port with Interrupt Description * * * * * * * * * * * * * * * * I2C 400 kHz Bus Compatible 2.3 V to 5.5 V Operation Low Stand-by Current 5 V Tolerant I/Os 8 I/O Pins that Default to Inputs at Power-up High Drive Capability Individual I/O Configuration Polarity Inversion Register Active Low Interrupt Output Internal Power-on Reset No Glitch on Power-up Noise Filter on SDA/SCL Inputs Cascadable up to 8 Devices Industrial Temperature Range 16-lead SOIC and TSSOP, and 16-pad TQFN (4 x 4 mm) Packages These Devices are Pb-Free, Halogen Free/BFR Free and are RoHS Compliant SOIC-16 W SUFFIX CASE 751BG TQFN-16 HV4 SUFFIX CASE 510AE TSSOP-16 Y SUFFIX CASE 948AN PIN CONNECTIONS A0 A1 A2 I/O0 I/O1 I/O2 I/O3 VSS 1 VCC SDA SCL INT I/O7 I/O6 I/O5 I/O4 SOIC (W), TSSOP (Y) (Top View) A1 A0 VCC SDA Features http://onsemi.com A2 I/O0 I/O1 I/O2 1 SCL INT I/O7 I/O6 I/O3 VSS I/O4 I/O5 The CAT9534 is an 8-bit parallel input/output port expander for I2C and SMBus compatible applications. These I/O expanders provide a simple solution in applications where additional I/Os are needed: sensors, power switches, LEDs, pushbuttons, and fans. The CAT9534 consists of an input port register, an output port register, a configuration register, a polarity inversion register and an I2C/SMBus-compatible serial interface. Any of the eight I/Os can be configured as an input or output by writing to the configuration register. The system master can invert the CAT9534 input data by writing to the active-high polarity inversion register. The CAT9534 features an active low interrupt output which indicates to the system master that an input state has changed. The device's extended addressing capability allows up to 8 devices to share the same bus. CAT9534 is offered in 16 pin SOIC, TSSOP and TQFN packages and operates over the full -40C to +85C industrial temperature range. TQFN 4 x 4 mm (HV4) (Top View) Applications * White Goods (dishwashers, washing machines) * Handheld Devices (cell phones, PDAs, digital cameras) * Data Communications (routers, hubs and servers) (c) Semiconductor Components Industries, LLC, 2011 June, 2011 - Rev. 0 ORDERING INFORMATION See detailed ordering and shipping information in the package dimensions section on page 14 of this data sheet. 1 Publication Order Number: CAT9534/D CAT9534 A0 I/O0 A1 I/O1 A2 I/O2 8-BIT SCL INPUT FILTER SDA I2C/SMBUS CONTROL WRITE pulse I/O3 INPUT/ OUTPUT PORTS I/O4 I/O5 READ pulse I/O6 I/O7 POWER-ON RESET VCC VSS VCC INT LP FILTER Note: All I/Os are set to inputs at RESET. Figure 1. Block Diagram Table 1. PIN DESCRIPTION SOIC / TSSOP TQFN Pin Name 1 15 A0 Address Input 0 Function 2 16 A1 Address Input 1 3 1 A2 Address Input 2 4-7 2-5 I/O0-3 8 6 VSS 9-12 7-10 I/O4-7 13 11 INT Interrupt Output (open drain) 14 12 SCL Serial Clock 15 13 SDA Serial Data 16 14 VCC Power Supply Input/Output Port 0 to Input/Output Port 3 Ground Input/Output Port 4 to Input/Output Port 7 Table 2. ABSOLUTE MAXIMUM RATINGS Parameters Ratings Units VCC with Respect to Ground -0.5 to +6.5 V Voltage on Any Pin with Respect to Ground -0.5 to +5.5 V DC Current on I/O0 to I/O7 50 mA DC Input Current 20 mA VCC Supply Current 85 mA VSS Supply Current 100 mA Package Power Dissipation Capability (TA = 25C) 1.0 W Junction Temperature +150 C Storage Temperature -65 to +150 C Stresses exceeding Maximum Ratings may damage the device. Maximum Ratings are stress ratings only. Functional operation above the Recommended Operating Conditions is not implied. Extended exposure to stresses above the Recommended Operating Conditions may affect device reliability. Table 3. RELIABILITY CHARACTERISTICS Symbol VZAP (Note 1) ILTH (Notes 1, 2) Parameter Reference Test Method Min Units ESD Susceptibility JEDEC Standard JESD 22 2000 Volts Latch-up JEDEC Standard 17 100 mA 1. This parameter is tested initially and after a design or process change that affects the parameter. 2. Latch-up protection is provided for stresses up to 100 mA on address and data pins from -1 V to VCC +1 V. http://onsemi.com 2 CAT9534 Table 4. D.C. OPERATING CHARACTERISTICS (VCC = 2.3 to 5.5 V; TA = -40C to +85C, unless otherwise specified.) Symbol Parameter Conditions Min Typ Max Unit 2.3 - 5.5 V SUPPLIES VCC Supply voltage ICC Supply current Operating mode; VCC = 5.5 V; no load; fSCL = 100 kHz - 104 175 mA Istbl Standby current Standby mode; VCC = 5.5 V; no load; VI = VSS; fSCL = 0 kHz; I/O = inputs - 0.25 3 mA Istbh Standby current Standby mode; VCC = 5.5 V; no load; VI = VCC; fSCL = 0 kHz; I/O = inputs - 0.25 1 mA Power-on reset voltage No load; VI = VCC or VSS - 1.5 1.65 V VPOR SCL, SDA, INT VIL (Note 3) Low level input voltage -0.5 - 0.3 x VCC V VIH (Note 3) High level input voltage 0.7 x VCC - 5.5 V IOL Low level output current VOL = 0.4 V 3 - - mA Leakage current VI = VCC or VSS -1 - +1 mA CI (Note 4) IL Input capacitance VI = VSS - - 6 pF CO (Note 4) Output capacitance VO = VSS - - 8 pF A0, A1, A2 VIL (Note 3) Low level input voltage -0.5 - 0.8 V VIH (Note 3) High level input voltage 2.0 - 5.5 V ILI Input leakage current -1 - 1 mA VIL Low level input voltage -0.5 - 0.8 V VIH High level input voltage 2.0 - 5.5 V IOL Low level output current VOL = 0.5 V; VCC = 2.3 V (Note 5) 8 10 - mA VOL = 0.7 V; VCC = 2.3 V (Note 5) 10 13 - mA VOL = 0.5 V; VCC = 4.5 V (Note 5) 8 17 - mA VOL = 0.7 V; VCC = 4.5 V (Note 5) 10 24 - mA VOL = 0.5 V; VCC = 3.0 V (Note 5) 8 14 - mA VOL = 0.7 V; VCC = 3.0 V (Note 5) 10 19 - mA IOH = -8 mA; VCC = 2.3 V (Note 6) 1.8 - - V IOH = -10 mA; VCC = 2.3 V (Note 6) 1.7 - - V IOH = -8 mA; VCC = 3.0 V (Note 6) 2.6 - - V IOH = -10 mA; VCC = 3.0 V (Note 6) 2.5 - - V IOH = -8 mA; VCC = 4.75 V (Note 6) 4.1 - - V IOH = -10 mA; VCC = 4.75 V (Note 6) 4.0 - - V - - 1 mA I/Os VOH IL 3. 4. 5. 6. High level output voltage Input leakage current VCC = 3.6 V; VI = VCC CI (Note 4) Input capacitance - - 5 pF CO (Note 4) Output capacitance - - 8 pF VIL min and VIH max are reference values only and are not tested. This parameter is characterized initially and after a design or process change that affects the parameter. Not 100% tested. The total current sunk by all I/Os must be limited to 100 mA and each I/O limited to 25 mA maximum. The total current sourced by all I/Os must be limited to 85 mA. http://onsemi.com 3 CAT9534 Table 5. A.C. CHARACTERISTICS (VCC = 2.3 to 5.5 V; TA = -40C to +85C, unless otherwise specified.) (Note 7) Standard I2C FSCL tHD:STA Min Parameter Symbol Clock Frequency Max Fast I2C Min 100 START Condition Hold Time Max Units 400 kHz 4 0.6 ms tLOW Low Period of SCL Clock 4.7 1.3 ms tHIGH High Period of SCL Clock 4 0.6 ms 4.7 0.6 ms tSU:STA START Condition Setup Time tHD:DAT Data In Hold Time 0 0 ms tSU:DAT Data In Setup Time 250 100 ns tR (Note 8) SDA and SCL Rise Time tF (Note 8) SDA and SCL Fall Time tSU:STO tBUF (Note 8) 300 STOP Condition Setup Time Bus Free Time Between STOP and START tAA SCL Low to Data Out Valid tDH Data Out Hold Time Ti (Note 8) 1000 Symbol ns 300 ns 4 0.6 ms 4.7 1.3 ms 3.5 100 Noise Pulse Filtered at SCL and SDA Inputs 300 0.9 50 100 Parameter Min ms ns 100 ns Max Units 200 ns PORT TIMING tPV Output Data Valid tPS Input Data Setup Time 100 ns tPH Input Data Hold Time 1 ms INTERRUPT TIMING tIV Interrupt Valid 4 ms tIR Interrupt Reset 4 ms 7. Test conditions according to "AC Test Conditions" table. 8. This parameter is characterized initially and after a design or process change that affects the parameter. Not 100% tested. Table 6. A.C. TEST CONDITIONS Input Rise and Fall time 10 ns CMOS Input Voltages 0.2 VCC to 0.8 VCC CMOS Input Reference Voltages 0.3 VCC to 0.7 VCC TTL Input Voltages 0.4 V to 2.4 V TTL Input Reference Voltages 0.8 V, 2.0 V Output Reference Voltages 0.5 VCC Output Load: SDA, INT Current Source IOL = 3 mA; CL = 100 pF Output Load: I/Os Current Source: IOL/IOH = 10 mA; CL = 50 pF http://onsemi.com 4 CAT9534 tF tR tHIGH tLOW tLOW SCL tSU:STA tHD:DAT tHD:STA tSU:STO tSU:DAT SDA IN tBUF tDH tAA SDA OUT Figure 2. I2C Serial Interface Timing Pin Description A0, A1, A2: Device Address Inputs These inputs are used for extended addressing capability. The A0, A1, A2 pins should be hardwired to VCC or VSS. When hardwired, up to eight CAT9534s may be addressed on a single bus system. The levels on these inputs are compared with corresponding bits, A2, A1, A0, from the slave address byte. SCL: Serial Clock The serial clock input clocks all data transferred into or out of the device. The SCL line requires a pull-up resistor if it is driven by an open drain output. SDA: Serial Data/Address The bidirectional serial data/address pin is used to transfer all data into and out of the device. The SDA pin is an open drain output and can be wire-ORed with other open drain or open collector outputs. A pull-up resistor must be connected from SDA line to VCC. The value of the pull-up resistor, RP, can be calculated based on minimum and maximum values from Figure 3 and Figure 4 (see Note). I/O0 to I/O7: Input / Output Ports Any of these pins may be configured as input or output. The simplified schematic of I/O0 to I/O7 is shown in Figure 5. When an I/O is configured as an input, the Q1 and Q2 output transistors are off creating a high impedance input. If the I/O pin is configured as an output, the push-pull output stage is enabled. Care should be taken if an external voltage is applied to an I/O pin configured as an output due to the low impedance paths that exist between the pin and either VCC or VSS. 8 2.5 IOL = 3 mA @ VOLmax 2.0 6 RPmax (KW) RPmin (KW) Fast Mode I2C Bus / tr max - 300 ns 7 1.5 1.0 5 4 3 2 0.5 1 0 NOTE: 2.0 2.4 2.8 3.2 3.6 4.0 4.4 4.8 5.2 0 5.6 0 50 100 150 200 250 300 350 VCC (V) CBUS (pF) Figure 3. Minimum RP Value vs. Supply Voltage Figure 4. Maximum RP Value vs. Bus Capacitance 400 According to the Fast Mode I2C bus specification, for bus capacitance up to 200 pF, the pull up device can be a resistor. For bus loads between 200 pF and 400 pF, the pull-up device can be a current source (Imax = 3 mA) or a switched resistor circuit. http://onsemi.com 5 CAT9534 INT: Interrupt Output state or the input port register is read. Changing an I/O from an output to an input may cause a false interrupt if the state of the pin does not match the contents of the input port register. The open-drain interrupt output is activated when one of the port pins configured as an input changes state (differs from the corresponding input port register bit state). The interrupt is deactivated when the input returns to its previous Data from Shift Register Data from Shift Register Output Port Register Data Configuration Register VCC Q D FF Write Configuration Pulse CK Q1 Q Q D FF Write Pulse CK I/O0 to I/O7 Q Output Port Register Q2 Input Port Register Q D LATCH Read Pulse Data from Shift Register CK Q D Q FF Write Polarity Register CK Q Polarity Inversion Register Figure 5. Simplified Schematic of I/O0 to I/O7 http://onsemi.com 6 VSS Input Port Register Data To INT Polarity Register Data CAT9534 Functional Description CAT9534's general purpose input/ output (GPIO) peripherals provide up to eight I/O ports, controlled through an I2C compatible serial interface. The CAT9534 supports the I2C Bus data transmission protocol. This I2C Bus protocol defines any device that sends data to the bus to be a transmitter and any device receiving data to be a receiver. The transfer is controlled by the Master device which generates the serial clock and all START and STOP conditions for bus access. The CAT9534 operates as a Slave device. Both the Master device and Slave device can operate as either transmitter or receiver, but the Master device controls which mode is activated. START and STOP Conditions The START Condition precedes all commands to the device, and is defined as a HIGH to LOW transition of SDA when SCL is HIGH. The CAT9534 monitors the SDA and SCL lines and will not respond until this condition is met. A LOW to HIGH transition of SDA when SCL is HIGH determines the STOP condition. All operations must end with a STOP condition. Device Addressing After the bus Master sends a START condition, a slave address byte is required to enable the CAT9534 for a read or write operation. The four most significant bits of the slave address are fixed as binary 0100 and the next three bits are its individual address bits (Figure 7). The address bits A2, A1 and A0 are used to select which device is accessed from maximum eight devices on the same bus. These bits must compare to their hardwired input pins. The 8th bit following the 7-bit slave address is the R/W bit that specifies whether a read or write operation is to be performed. When this bit is set to "1", a read operation is initiated, and when set to "0", a write operation is selected. Following the START condition and the slave address byte, the CAT9534 monitors the bus and responds with an acknowledge (on the SDA line) when its address matches the transmitted slave address. The CAT9534 then performs a read or a write operation depending on the state of the R/W bit. I2C Bus Protocol The features of the I2C bus protocol are defined as follows: 1. Data transfer may be initiated only when the bus is not busy. 2. During a data transfer, the data line must remain stable whenever the clock line is high. Any changes in the data line while the clock line is high will be interpreted as a START or STOP condition (Figure 6). SCL SDA START CONDITION STOP CONDITION Figure 6. START/STOP Condition SLAVE ADDRESS 0 1 0 FIXED 0 A2 A1 A0 R/W PROGRAMMABLE HARDWARE SELECTABLE Figure 7. CAT9534 Slave Address http://onsemi.com 7 CAT9534 Acknowledge The command byte is the first byte to follow the device address byte during a write/read bus transaction. The register command byte acts as a pointer to determine which register will be written or read. The input port register is a read only port. It reflects the incoming logic levels of the I/O pins, regardless of whether the pin is defined as an input or an output by the configuration register. Writes to the input port register are ignored. After a successful data transfer, each receiving device is required to generate an acknowledge. The acknowledging device pulls down the SDA line during the ninth clock cycle, signaling that it received the 8 bits of data. The SDA line remains stable LOW during the HIGH period of the acknowledge related clock pulse (Figure 6). The CAT9534 responds with an acknowledge after receiving a START condition and its slave address. If the device has been selected along with a write operation, it responds with an acknowledge after receiving each 8-bit byte. When the CAT9534 begins a READ mode it transmits 8 bits of data, releases the SDA line, and monitors the line for an acknowledge. Once it receives this acknowledge, the CAT9534 will continue to transmit data. If no acknowledge is sent by the Master, the device terminates data transmission and waits for a STOP condition. The master must then issue a STOP condition to return the CAT9534 to the standby power mode and place the device in a known state. Table 8. REGISTER 0 - INPUT PORT REGISTER 0x00 Read byte Input port register 0x01 Read/write byte Output port register 0x02 Read/write byte Polarity inversion register 0x03 Read/write byte Configuration register I5 I4 I3 I2 I1 I0 1 1 1 1 1 1 1 bit O7 O6 O5 O4 O3 O2 O1 O0 default 1 1 1 1 1 1 1 1 bit N7 N6 N5 N4 N3 N2 N1 N0 default 0 0 0 0 0 0 0 0 Table 11. REGISTER 3 - CONFIGURATION REGISTER Table 7. REGISTER COMMAND BYTE Function I6 1 Table 10. REGISTER 2 - POLARITY INVERSION REGISTER The CAT9534 consists of an input port register, an output port register, a polarity inversion register and a configuration register. Table 7 shows the register address table. Tables 8 to 11 list Register 0 through Register 3 information. Protocol I7 Table 9. REGISTER 1 - OUTPUT PORT REGISTER Registers and Bus Transactions Command (hex) bit default bit C7 C6 C5 C4 C3 C2 C1 C0 default 1 1 1 1 1 1 1 1 BUS RELEASE DELAY (TRANSMITTER) SCL FROM MASTER 1 8 BUS RELEASE DELAY (RECEIVER) 9 DATA OUTPUT FROM TRANSMITTER DATA OUTPUT FROM RECEIVER START ACK SETUP ACK DELAY Figure 8. Acknowledge Timing http://onsemi.com 8 CAT9534 corresponding port pin as an input with a high impedance output driver. If a bit in this register is cleared, the corresponding port pin is enabled as an output. At power-up, the I/Os are configured as inputs with a weak pull-up resistor to VCC. Data is transmitted to the CAT9534's registers using the write mode shown in Figure 9 and Figure 10. The CAT9534's registers are read according to the timing diagrams shown in Figure 11 and Figure 12. Once a command byte has been sent, the register which was addressed will continue to be accessed by reads until a new command byte will be sent. The output port register sets the outgoing logic levels of the I/O ports, defined as outputs by the configuration register. Bit values in this register have no effect on I/O pins defined as inputs. Reads from the output port register reflect the value that is in the flip-flop controlling the output, not the actual I/O pin value. The polarity inversion register allows the user to invert the polarity of the input port register data. If a bit in this register is set ("1") the corresponding input port data is inverted. If a bit in the polarity inversion register is cleared ("0"), the original input port polarity is retained. The configuration register sets the directions of the ports. Set the bit in the configuration register to enable the SCL 1 2 3 4 5 6 7 S 0 1 9 R/W slave address SDA 8 0 0 A2 A1 A0 0 start condition acknowledge from slave command byte A 0 0 0 0 0 0 data to port 0 A 1 DATA 1 acknowledge from slave A P acknowledge from slave WRITE TO PORT stop condition DATA 1 VALID DATA OUT FROM PORT tpv Figure 9. Write to Output Port Register SCL 1 2 3 4 5 6 slave address SDA S 0 1 7 8 9 R/W 0 0 A2 A1 A0 0 start condition acknowledge from slave command byte A 0 0 0 0 0 0 data to register 1 1/0 acknowledge from slave A DATA 1 acknowledge from slave WRITE TO REGISTER Figure 10. Write to Configuration or Polarity Inversion Register http://onsemi.com 9 A P stop condition CAT9534 Interrupt Output Power-On Reset Operation CAT9534's interrupt otuput is an active LOW open-drain output that is activated when any port pin configured as an input changes state. The interrupt output is reset when the input returns to its previous state or the Input Port Register is read. Note that changing an I/O from an output to an input may cause a false interrupt to occur if the state of the pin does not match the contents of the Input Port register. When the power supply is applied to VCC pin, an internal power-on reset pulse holds the CAT9534 in a reset state until VCC reaches VPOR level. At this point, the reset condition is released and the internal state machine and the CAT9534's registers are initialized to their default state. slave address S 0 1 0 R/W 0 A2 A1 A0 0 slave address A COMMAND BYTE A S 0 acknowledge from slave acknowledge from slave 1 0 acknowledge from master data from register R/W 0 A2 A1 A0 1 A A DATA acknowledge from slave first byte At this moment master-transmitter becomes master-receiver and slave-receiver becomes slave-transmitter no acknowledge from master data from register DATA NA P last byte Figure 11. Read from Register SCL 1 2 3 4 5 6 slave address SDA S 0 1 7 8 9 data from port R/W 0 0 A2 A1 A0 1 start condition acknowledge from slave DATA 1 A data from port A acknowledge from master DATA 4 no acknowledge from master READ FROM PORT DATA INTO PORT DATA 2 DATA 1 DATA 3 tPH tPS INT tIV tIR Figure 12. Read Input Port Register http://onsemi.com 10 DATA 4 NA P stop condition CAT9534 PACKAGE DIMENSIONS SOIC-16, 150 mils CASE 751BG-01 ISSUE O SYMBOL E1 E MIN NOM MAX A 1.35 1.75 A1 0.10 0.25 b 0.33 0.51 c 0.19 D 9.80 9.90 10.00 E 5.80 6.00 6.20 E1 3.80 3.90 4.00 0.25 1.27 BSC e h 0.25 0.50 L 0.40 1.27 0 8 PIN#1 IDENTIFICATION TOP VIEW D h q A e b A1 c L END VIEW SIDE VIEW Notes: (1) All dimensions are in millimeters. Angles in degrees. (2) Complies with JEDEC MS-012. http://onsemi.com 11 CAT9534 PACKAGE DIMENSIONS TQFN16, 4x4 CASE 510AE-01 ISSUE A A D DETAIL A E2 E PIN#1 ID PIN#1 INDEX AREA TOP VIEW SIDE VIEW SYMBOL MIN NOM MAX A 0.70 0.75 0.80 A1 0.00 0.02 0.05 A3 BOTTOM VIEW e b 0.20 REF b 0.25 0.30 0.35 D 3.90 4.00 4.10 D2 2.00 --- 2.25 E 3.90 4.00 4.10 E2 2.00 --- 2.25 e L D2 A1 L DETAIL A 0.65 BSC 0.45 --- A 0.65 Notes: (1) All dimensions are in millimeters. (2) Complies with JEDEC MO-220. A1 A3 FRONT VIEW http://onsemi.com 12 CAT9534 PACKAGE DIMENSIONS TSSOP16, 4.4x5 CASE 948AN-01 ISSUE O b SYMBOL MIN NOM A E1 E MAX 1.10 A1 0.05 0.15 A2 0.85 0.95 b 0.19 0.30 c 0.13 0.20 D 4.90 5.10 E 6.30 6.50 E1 4.30 4.50 e 0.65 BSC L 1.00 REF L1 0.45 0.75 0 8 e PIN#1 IDENTIFICATION TOP VIEW D A2 A c 1 A1 L1 SIDE VIEW END VIEW Notes: (1) All dimensions are in millimeters. Angles in degrees. (2) Complies with JEDEC MO-153. http://onsemi.com 13 L CAT9534 Example of Ordering Information (Note 11) Prefix Device # Suffix CAT 9534 W Company ID (Optional) Product Number 9534 Package W: SOIC Y: TSSOP HV4: TQFN -G T2 Lead Finish G: NiPdAu Blank: Matte-Tin Tape & Reel (Note 13) T: Tape & Reel 2: 2,000 / Reel I Temperature Range I = Industrial (-40C to +85C) Table 12. ORDERING INFORMATION Part Number Package Lead Finish CAT9534WI-GT2 SOIC NiPdAu CAT9534YI-GT2 TSSOP NiPdAu CAT9534HV4I-GT2 TQFN NiPdAu 9. All packages are RoHS-compliant (Lead-free, Halogen-free). 10. The standard lead finish is NiPdAu. 11. The device used in the above example is a CAT9534WI-GT2 (SOIC, Industrial Temperature, NiPdAu, Tape & Reel, 2,000/Reel). 12. For additional package and temperature options, please contact your nearest ON Semiconductor Sales office. 13. For information on tape and reel specifications, including part orientation and tape sizes, please refer to our Tape and Reel Packaging Specifications Brochure, BRD8011/D. ON Semiconductor is licensed by Philips Corporation to carry the I2C Bus Protocol. ON Semiconductor and are registered trademarks of Semiconductor Components Industries, LLC (SCILLC). SCILLC reserves the right to make changes without further notice to any products herein. SCILLC makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does SCILLC assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation special, consequential or incidental damages. "Typical" parameters which may be provided in SCILLC data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. 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American Technical Support: 800-282-9855 Toll Free USA/Canada Europe, Middle East and Africa Technical Support: Phone: 421 33 790 2910 Japan Customer Focus Center Phone: 81-3-5773-3850 http://onsemi.com 14 ON Semiconductor Website: www.onsemi.com Order Literature: http://www.onsemi.com/orderlit For additional information, please contact your local Sales Representative CAT9534/D