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| EL7155C EL7155C High-Performance Pin Driver Features * Clocking Speeds up to 40MHz * 15ns tr/tf at 2000pF CLOAD * 0.5ns Rise and Fall Times Mismatch * 0.5ns TON-TOFF Prop Delay Mismatch * 3.5pF Typical Input Capacitance * 3.5A Peak Drive * Low on Resistance of 3.5 * High Capacitive Drive Capability * Operates from 4.5V up to 18V General Description The EL7155C high-performance pin driver with tri-state is suited to many ATE and level-shifting applications. The 3.5A peak drive capability makes this part an excellent choice when driving high capacitance loads. Output pins OUTH and OUTL are connected to input pins VH and VL respectively, depending on the status of the IN pin. One of the output pins is always in tri-state, except when the OE pin is active low, in which case both outputs are in tri-state mode. The isolation of the output FETs from the power supplies enables VH and VL to be set independently, enabling level-shifting to be implemented. This pin driver has improved performance over existing pin drivers. It is specifically designed to operate at voltages down to 0V across the switch elements while maintaining good speed and on-resistance characteristics. Available in the 8-Pin SOIC and 8-Pin PDIP packages, the EL7155C is specified for operation over the -40C to +85C temperature range. Applications * * * * ATE/Burn-in Testers Level Shifting IGBT Drivers CCD Drivers Ordering Information Part No. EL7155CN EL7155CS EL7155CS-T7 EL7155CS-T13 Package 8-Pin DIP 8-Pin SOIC 8-Pin SOIC 8-Pin SOIC Tape & Reel 7" 13" Outline # MDP0031 MDP0027 MDP0027 MDP0027 Pin Layout Diagram VS+ 1 OE 2 IN 3 GND 4 8-Pin PDIP/SOIC L o g i c 8 VH 7 OUTH 6 OUTL 5 VL September 5, 2000 (c) 2000 Elantec Semiconductor, Inc. EL7155C EL7155C High-Performance Pin Driver Absolute Maximum Ratings (T A = 25C) Absolute maximum ratings are those values beyond which the device could be permanently damaged. Absolute maximum ratings are stress ratings only and functional device operation is not implied. +18V Supply Voltage (VS+ to VL) Input Voltage VL -0.3V, VL+ +0.3V Continuous Output Current 200mA Storage Temperature Range Ambient operating Temperature Operating Junction Temperature Power Dissipation Maximum ESD -65C to +150C -40C to +85C 125C see curves 2kV Important Note: All parameters having Min/Max specifications are guaranteed. Typ values are for information purposes only. Unless otherwise noted, all tests are at the specified temperature and are pulsed tests, therefore: TJ = TC = TA. Electrical Characteristics VS+ = +15V, VH = +15V, VL = 0V, TA = 25C, unless otherwise specified. Parameter Input VIH IIH VIL IIL CIN RIN Output ROVH ROVL IOUT IPK IDC Power Supply IS IVH tR tF tRFdelta tD-1 tD-2 tDdelta tD-3 tD-4 Power Supply Current Off Leakage at VH Rise Time Fall Time tR, tF Mismatch Turn-Off Delay Time Turn-On Delay Time tD-1-tD-2 Mismatch Tri-State Delay Enable Tri-State Delay Disable Inputs = VS+ VH = 0V CL =2000 pF CL = 2000 pF CL = 2000 pF CL = 2000 pF CL = 2000 pF CL = 2000 pF 1.3 4 14.5 15 0.5 9.5 10 0.5 10 10 3 10 mA A ns ns ns ns ns ns ns ns ON Resistance VH to OUTH ON Resistance VL to OUTL Output Leakage Current Peak Output Current (linear resistive operation) Continuous Output Current IOUT = -200 mA IOUT = +200 mA OE = 0V, OUTH = VL, OUTL = VS+ Source Sink Source/Sink 200 2.7 3.5 0.1 3.5 3.5 4.5 5.5 10 A A A mA Logic `1' Input Voltage Logic `1' Input Current Logic `0' Input Voltage Logic `0' Input Current Input Capacitance Input Resistance VIL = 0V 0.1 3.5 50 VIH = VS+ 2.4 0.1 10 0.8 10 V A V A pF M Description Condition Min Typ Max Unit Switching Characteristics 2 EL7155C EL7155C High-Performance Pin Driver Electrical Characteristics VS+ = +5V, VH = +5V, VL = -5V, TA = 25C, unless otherwise specified. Parameter Input VIH IIH VIL IIL CIN RIN Output ROVH ROVL IOUT IPK IDC Power Supply IS IVH tR tF tRFdelta tD-1 tD-2 tDdelta tD-3 tD-4 Power Supply Current Off Leakage at VH Rise Time Fall Time tR, tF Mismatch Turn-Off Delay Time Turn-On Delay Time tD-1-tD-2 Mismatch Tri-State Delay Enable Tri-State Delay Disable Inputs = VS+ VH = 0V CL =2000 pF CL = 2000 pF CL = 2000 pF CL = 2000 pF CL = 2000 pF CL = 2000 pF 1 4 17 17 0 11.5 12 0.5 11 11 2.5 10 mA A ns ns ns ns ns ns ns ns ON Resistance VH to OUTH ON Resistance VL to OUTL Output Leakage Current Peak Output Current (linear resistive operation) Continuous Output Current IOUT = -200 mA IOUT = +200 mA OE = 0V, OUTH = VL, OUTL = VS+ Source Sink Source/Sink 200 3.4 4 0.1 3.5 3.5 5 6 10 A A A mA Logic `1' Input Voltage Logic `1' Input Current Logic `0' Input Voltage Logic `0' Input Current Input Capacitance Input Resistance VIL = 0V 0.1 3.5 50 VIH = VS+ 2.0 0.1 10 0.8 10 V A V A pF M Description Condition Min Typ Max Unit Switching Characteristics 3 EL7155C EL7155C High-Performance Pin Driver Typical Performance Curves Max Power/Derating Curves 1.8 1W 8-Lead PDIP 800mW Max Power (W) 600mW 8-Lead SO 400mW JA=160C/W 200mW 0 0 25 50 75 Temperature (C) 100 125 150 1.0 5 10 Supply Voltage (V) 15 Max TJ=125C JA=100C/W Input voltage (V) 1.6 Hysteresis 1.4 High Threshold Input Threshold vs Supply Voltage T=25C 1.2 Low Threshold Quiescent Supply Current vs Supply Voltage T=25C 2.0 6 5 "On" Resistance () All Inputs = GND 4 3 2 1 0 5 10 Supply Voltage (V) 15 "On" Resistance vs Supply Voltage IOUT=200mA, T=25C, VS+=VH, VL=0V VOUT-VL 1.6 Supply Current (mA) 1.2 VOUT-VH 0.8 All Inputs = VS+ 0.4 0 5 7.5 10 Supply Voltage (V) 12.5 15 Rise/Fall Time vs Supply Voltage CL=2000pF, T=25C 30 20 Rise/Fall Time vs Temperature CL=2000pF, VS+=15V 25 Rise/Fall Time (ns) tR 20 tI 15 tF Rise/Fall Time (ns) 18 tF 16 14 tR 12 tR 10 5 10 Supply Voltage (V) 15 10 -50 0 50 Temperature (C) 100 150 4 EL7155C EL7155C High-Performance Pin Driver Typical Performance Curves (cont.) Propagation Delay vs Supply Voltage CL=2000pF, T=25C Propagation Delay vs Temperature CL=2000pF, VS+=15V 17 14 15 Delay Time (ns) tD-2 Delay Time (ns) 12 tD-2 13 10 tD-1 8 11 tD-1 9 5 10 Supply Voltage (V) 15 6 -50 -25 0 25 50 75 100 125 Temperature (C) 70 60 Rise/Fall Time vs Load Capacitance VS+=+15V, T=25C 5 Supply Current vs Load Capacitance VS+=VH=15V, VL=0V, T=25C, f=20kHz 4 Supply Current (mA) Rise/Fall Time (ns) 50 40 tF 30 20 10 0 100 tR 3 2 1 1000 Load Capacitance (pF) 10000 0 100 1000 Load Capacitance (pF) 10000 100 Supply Current vs Frequency CL=1000pF, T=25C Supply Current (mA) 10 VS+=15V VS+=10V 1.0 VS+=5V 0.1 10k 100k Frequency (Hz) 1M 10M 5 EL7155C EL7155C High-Performance Pin Driver Truth Table OE 0 0 1 1 IN 0 1 0 1 VH to OUTH Open Open Closed Open OUTL to VSOpen Open Open Closed Operating Voltage Range PIN GND - VL VS+ - VL VH - VL VS+ - VH VS+ - GND MIN -5 5 0 0 5 MAX 0 18 18 18 18 Timing Diagrams 5V Input 2.5V 0 Inverted Output 90% 10% tD1 tF tD2 tR Standard Test Configuration VS+ 1 VS+ 10k 4.7 0.1 OE IN GND 2 3 4 EL7155C 0.1 L o g i c 8 0.1 7 4.7 VH OUT 6 2000p 5 4.7 VL 6 EL7155C EL7155C High-Performance Pin Driver Pin Descriptions Pin 1 2 VS + OE Name Output Enable VS+ Function Positive Supply Voltage Equivalent Circuit INPUT VL Circuit 1 3 4 5 6 IN GND VL OUTL Input Ground Negative Supply Voltage Lower Switch Output Same as Circuit 1 VS+ OUTL VL Circuit 2 7 OUTH Upper Switch Output VH VS+ VL OUTH VL Circuit 3 8 VH Upper Output Voltage 7 EL7155C EL7155C High-Performance Pin Driver Block Diagram OE VH VS+ IN Level Shifter GND 3-State Control OUTH OUTL VL Application Information Product Description The EL7155C is a high performance 40MHz pin driver. It contains two analog switches connecting VH to OUTH and VL to OUTL. Depending on the value of the IN pin, one of the two switches will be closed and the other switch open. An output enable (OE) is also supplied which opens both switches simultaneously. Due to the topology of the EL7155C, VL should always be connected to a voltage equal to, or lower than GND. VH can be connected to any voltage between VL and the positive supply, VS+. The EL7155C is available in both the 8-pin SOIC and the 8-pin PDIP packages. The relevant package should b e c h o se n de p en d i n g o n t h e c al cu l a t e d p ow er dissipation. Supply Voltage Range and Input Compatibility The EL7155C is designed for operation on supplies from 5V to 15V (4.5V to 18V maximum). The table on page 6 shows the specifications for the relationship between the VS+, VH, VL, and GND pins. All input pins are compatible with both 3V and 5V CMOS signals. With a positive supply (VS+) of 5V, the EL7155C is also compatible with TTL inputs. 8 EL7155C EL7155C High-Performance Pin Driver Power Supply Bypassing When using the EL7155C, it is very important to use adequate power supply bypassing. The high switching currents developed by the EL7155C necessitate the use of a bypass capacitor between the VS+ and GND pins. It is recommended that a 2.2F tantalum capacitor be used in parallel with a 0.1 F low-inductance ceramic MLC capacitor. These should be placed as close to the supply pins as possible. It is also recommended that the VH and VL pins have some level of bypassing, especially if the EL7155C is driving highly capacitive loads. * IS is the quiescent supply current (3mA max.) and * f is frequency Having obtained the application's power dissipation, a maximum package thermal coefficient may be determined, to maintain the internal die temperature below Tjmax: ( T jmax - T max ) ja = ------------------------------------PD where: * Tjmax is the maximum junction temperature (125C), * Tmax is the maximum operating temperature, * PD is the power dissipation calculated above, * ja thermal resistance on junction to ambient. ja is 160C/W for the SO8 package and 100C/W for the PDIP8 package when using a standard JEDEC JESD51-3 single-layer test board. If Tjmax is greater than 125C when calculated using the equation above, then one of the following actions must be taken: * Reduce ja the system by designing more heat-sinking into the PCB (as compared to the standard JEDEC JESD51-3) * Use the PDIP8 instead of the SO8 package * De-rate the application either by reducing the switching frequency, the capacitive load, or the maximum operating (ambient) temperature (Tmax) Power Dissipation Calculation When switching at high speeds, or driving heavy loads, the EL7155C drive capability is limited by the rise in die temperature brought about by internal power dissipation. For reliable operation die temperature must be kept below Tjmax (125C). It is necessary to calculate the power dissipation for a given application prior to selecting the package type. Power dissipation may be calculated: PD = ( V S x I S ) + ( C INT x V S x f ) + ( C L x V OU T x f ) 2 2 where: * VS is the total power supply to the EL7155C (from VS+ to GND), * Vout is the swing on the output (VH - VL), * CL is the load capacitance, * CINT is the internal load capacitance (50pF max.), 9 EL7155C EL7155C High-Performance Pin Driver General Disclaimer Specifications contained in this data sheet are in effect as of the publication date shown. Elantec, Inc. reserves the right to make changes in the circuitry or specifications contained herein at any time without notice. Elantec, Inc. assumes no responsibility for the use of any circuits described herein and makes no representations that they are free from patent infringement. WARNING - Life Support Policy September 5, 2000 Elantec Semiconductor, Inc. 675 Trade Zone Blvd. Milpitas, CA 95035 Telephone: (408) 945-1323 (888) ELANTEC Fax: (408) 945-9305 European Office: +44-118-977-6080 Japan Technical Center: +81-45-682-5820 10 Elantec, Inc. products are not authorized for and should not be used within Life Support Systems without the specific written consent of Elantec, Inc. Life Support systems are equipment intended to support or sustain life and whose failure to perform when properly used in accordance with instructions provided can be reasonably expected to result in significant personal injury or death. Users contemplating application of Elantec, Inc. Products in Life Support Systems are requested to contact Elantec, Inc. factory headquarters to establish suitable terms & conditions for these applications. Elantec, Inc.'s warranty is limited to replacement of defective components and does not cover injury to persons or property or other consequential damages. Printed in U.S.A. |
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