AD53040 AD53040KRP RP-20 MC10EL16 0805-SIZE - Datasheet Archive

 

FEATURES 500 MHz Driver Operation Driver Inhibit Function 100 ps Edge Matching Guaranteed Industry Specifications 50 Output

 

a FEATURES 500 MHz Driver Operation Driver Inhibit Function 100 ps Edge Matching Guaranteed Industry Specifications 50 Output Impedance >1.5 V/ns Slew Rate Variable Output Voltages for ECL, TTL and CMOS High Speed Differential Inputs for Maximum Flexibility Ultrasmall 20-Lead SOP Package with Built-In Heat Sink APPLICATIONS Automatic Test Equipment Semiconductor Test Systems Board Test Systems Instrumentation and Characterization Equipment PRODUCT DESCRIPTION The AD53040 AD53040 is a complete high speed pin driver designed for use in digital or mixed-signal test systems. Combining a high speed monolithic process with a unique surface mount package, this product attains superb electrical performance while preserving optimum packaging densities and long-term reliability in an ultrasmall 20-lead, SOP package with built-in heat sink. Featuring unity gain programmable output levels of ­3 V to +8 V, with output swing capability of less than 100 mV to 9 V, the AD53040 AD53040 is designed to stimulate ECL, TTL and CMOS logic families. The 500 MHz data rate capacity and matched output impedance allows for real-time stimulation of these digital logic families. To test I/O devices, the pin driver can be switched into a high impedance state (Inhibit Mode), electrically removing the driver from the path. The pin driver leakage current inhibit is typically 100 nA and output charge transfer entering inhibit is typically less than 20 pC. Ultrahigh Speed Pin Driver with Inhibit Mode AD53040 AD53040 FUNCTIONAL BLOCK DIAGRAM VCC VEE VCC VEE 39nF 39nF VH VHDCPL DATA DATA 50 DRIVER VOUT INH INH VLDCPL VL TVCC AD53040 AD53040 THERM 1.0A/K GND GND GND GND GND The AD53040 AD53040 transition from HI/LO or to inhibit is controlled through the data and inhibit inputs. The input circuitry uses high speed differential inputs with a common-mode range of ± 3 V. This allows for direct interface to precision differential ECL timing or the simplicity of stimulating the pin driver from a single ended TTL or CMOS logic source. The analog logic HI/LO inputs are equally easy to interface. Typically requiring 10 µA of bias current, the AD53040 AD53040 can be directly coupled to the output of a digital-to-analog converter. The AD53040 AD53040 is available in a 20-lead, SOP package with a built-in heat sink and is specified to operate over the ambient commercial temperature range of ­25°C to +85°C. REV. B Information furnished by Analog Devices is believed to be accurate and reliable. However, no responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other rights of third parties which may result from its use. No license is granted by implication or otherwise under any patent or patent rights of Analog Devices. One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A. Tel: 781/329-4700 World Wide Web Site: http://www.analog.com Fax: 781/326-8703 © Analog Devices, Inc., 1999 AD53040 AD53040­SPECIFICATIONS (All specifications are at TJ = +85C 5C, +VS = +12 V 3%, ­VS = ­7 V 3% unless otherwise noted. All temperature coefficients are measured at TJ = +75C­95C). (A 39 nF capacitor must be connected between VCC and VHDCPL and between VEE and VLDCPL.) Parameter Min Max Units ECL 2 Volts 2 DIFFERENTIAL INPUT CHARACTERISTICS Input Swing (Data to DATA, INH to INH) Max (DATA, DATA) to Min (INH, INH) Max (INH, INH) to Min (Data, DATA) Bias Current Typ Volts µA VIN = ­2 V, 0.0 V ± 10 Test Conditions REFERENCE INPUTS Bias Currents ­50 +50 µA VL , V H = 5 V OUTPUT CHARACTERISTICS Logic High Range ­2 +8 Volts ­3 0.1 +5 9 Volts Volts DATA = H, VH = ­2 V to +8 V VL = ­3 V (VH = ­2 V to +6 V) VL = ­1 V (VH = +6 V to +8 V) DATA = L, VL = ­3 V to +5 V, VH = +6 V VL = ­0.05 V, VH = +0.05 V and VL = ­2 V, VH = +7 V Logic Low Range Amplitude (VH and VL) Absolute Accuracy VH Offset VH Gain + Linearity Error VL Offset VL Gain + Linearity Error Offset TC, VH or VL Output Resistance ­100 ± 0.3 ± 5 ­100 45 ± 0.3 ± 5 0.5 47 +100 mV % of VH + mV +100 mV % of VL + mV mV/°C 49 150 ± 65 µA mA mA 35 dB 1.5 ns Propagation Delay TC 2 ps/°C Delay Matching, Edge to Edge 100 ps Output Leakage Dynamic Current Limit Static Current Limit PSRR, Drive Mode DYNAMIC PERFORMANCE, DRIVE (VH and VL ) Propagation Delay Time ­1.0 +1.0 DATA = H, VH = ­2 V to +8 V, VL = ­3 V DATA = H, VH = ­2 V to +8 V, VL = ­3 V DATA = L, VL = ­3 V to +5 V, VH = +6 V DATA = L, VL = ­3 V to +5 V, VH = +6 V VL, VH = 0 V, +5 V and ­3 V, 0 V DATA = H, VH = +3 V, VL = 0 V, IOUT = 30 mA VOUT = ­3 V to +8 V CBYP = 39 nF, VH = +7 V, VL = ­2 V Output to ­3 V, VH = +8 V, VL = ­1 V, DATA = H and Output to +8 V, VH = +6 V, VL = ­3 V, DATA = L VS = VS ± 3% Measured at 50%, VH = +400 mV, VL = ­400 mV Measured at 50%, VH = +400 mV, VL = ­400 mV Measured at 50%, VH = +400 mV, VL = ­400 mV Rise and Fall Time 1 V Swing 3 V Swing 5 V Swing Rise and Fall Time TC 1 V Swing 3 V Swing 5 V Swing Overshoot, Undershoot and Preshoot 0.8 1.7 2.4 ns ns ns Measured 20%­80%, VL = 0 V, VH = 1 V Measured 10%­90%, VL = 0 V, VH = 3 V Measured 10%­90%, VL = 0 V, VH = 5 V ±1 ±2 ±3 ± (1% +50 mV) ps/°C ps/°C ps/°C % of Step + mV Measured 20%­80%, VL = 0 V, VH = 1 V Measured 10%­90%, VL = 0 V, VH = 3 V Measured 10%­90%, VL = 0 V, VH = 5 V a. VL , VH = 0.0 V, 1.0 V b. VL, VH = 0.0 V, 3.0 V c. VL, VH = 0.0 V, 5.0 V Settling Time to 15 mV to 4 mV Delay Change vs. Pulsewidth 40 8 50 ns µs ps VL = 0 V, VH = 0.5 V VL = 0 V, VH = 0.5 V VL = 0 V, VH = 2 V, Pulsewidth = 2.5 ns/7.5 ns, 30 ns/100 ns ­2­ REV. B AD53040 AD53040 Parameter Min Units Test Conditions 1.7 ns 5 V Swing 2.6 ns Toggle Rate 500 MHz 4.0 ns Input, 10%/90% Output, VL = 0 V, VH = 3 V 6.0 ns Input, 10%/90% Output, VL = 0 V, VH = 5 V VL = ­1.8 V, VH = ­0.8 V, VOUT > 600 mV p-p DYNAMIC PERFORMANCE, DRIVE (VH and VL ) (Continued) Minimum Pulsewidth 3 V Swing DYNAMIC PERFORMANCE, INHIBIT Delay Time, Active to Inhibit Delay Time, Inhibit to Active Typ Max 2 5 ns 2 5 ns I/O Spike Output Capacitance POWER SUPPLIES Total Supply Range Positive Supply Negative Supply Positive Supply Current Negative Supply Current Total Power Dissipation Temperature Sensor Gain Factor