Order this document by AM26LS32/D Motorolas Quad EIA-422/3 Receiver features four independent receiver chains which comply with EIA Standards for the Electrical Characteristics of Balanced/Unbalanced Voltage Digital Interface Circuits. Receiver outputs are 74LS compatible, three-state structures which are forced to a high impedance state when Pin 4 is a Logic "0" and Pin 12 is a Logic "1." A PNP device buffers each output control pin to assure minimum loading for either Logic "1" or Logic "0" inputs. In addition, each receiver chain has internal hysteresis circuitry to improve noise margin and discourage output instability for slowly changing input waveforms. A summary of AM26LS32 features include: * Four Independent Receiver Chains * * * * * * * * Three-State Outputs QUAD EIA-422/3 LINE RECEIVER WITH THREE-STATE OUTPUTS SEMICONDUCTOR TECHNICAL DATA D SUFFIX PLASTIC PACKAGE CASE 751B (SO-16) High Impedance Output Control Inputs (PIA Compatible) Internal Hysteresis - 30 mV (Typical) @ Zero Volts Common Mode Fast Propagation Times - 25 ns (Typical) TTL Compatible PC SUFFIX PLASTIC PACKAGE CASE 648 Single 5.0 V Supply Voltage Fail-Safe Input-Output Relationship. Output Always High When Inputs Are Open, Terminated or Shorted 6.0 k Minimum Input Impedance PIN CONNECTIONS Representative Block Diagram Differential Inputs Three-State Control Inputs 1 - 2 + Inputs A Output Outputs A 3 3-State Control 4 16 VCC - 15 + 14 13 Output B Output C 5 12 6 + 7 - Inputs C Input Network GND 8 Amplifier Inputs B 3-State Control 11 Output D + 10 - 9 Inputs D Level Translator Hysteresis ORDERING INFORMATION Level Translator Amplifier Device Operating Temperature Range AM26LS32PC MC26LS32D* * Note that the surface mount MC26LS32D device uses the same die as in the plastic DIP * AM26LS32DC device, but with an MC prefix to prevent confusion with the package suffix. MOTOROLA ANALOG IC DEVICE DATA TA = 0 to 70C Package Plastic DIP SO-16 Motorola, Inc. 1995 1 AM26LS32 MAXIMUM RATINGS Rating Symbol Value Unit Power Supply Voltage VCC 7.0 Vdc Input Common Mode Voltage VICM 25 Vdc VID 25 Vdc VI 7.0 Vdc Input Differential Voltage Three-State Control Input Voltage Output Sink Current IO 50 mA Storage Temperature Tstg - 65 to + 150 C TJ + 150 C Symbol Value Unit VCC 4.75 to 5.25 Vdc TA 0 to + 70 C Input Common Mode Voltage Range VICR - 7.0 to + 7.0 Vdc Input Differential Voltage Range VIDR 6.0 Vdc Operating Junction Temperature RECOMMENDED OPERATING CONDITIONS Rating Power Supply Voltage Operating Ambient Temperature ELECTRICAL CHARACTERISTICS (Unless otherwise noted, minimum and maximum limits apply over recommended temperature and power supply voltage ranges. Typical values are for TA = 25C, VCC = 5.0 V and VIC = 0 V. See Note 1.) Characteristic Input Voltage - High Logic State (Three-State Control) Input Voltage - Low Logic State (Three-State Control) Differential Input Threshold Voltage (Note 2) (- 7.0 V VIC 7.0 V, VIH = 2.0 V) (IO = - 0.4 mA, VOH 2.7 V) (IO = 8.0 mA, VOL 0.45 V) p p Min Typ Max Unit VIH 2.0 - - V VIL - - 0.8 V VTH(D) q p Input Bias Current (VCC = 0 V or 5.25) (Other Inputs at -15 V Vin = + 15 V Vin = - 15 V Input Resistance ( -15 V V - - p Vin p + 15 V) p Vin p + 15 V) Input Balance and Output Level (- 7.0 V VIC 7.0 V, VIH = 2.0 V, See Note 3) (IO = - 0.4 mA, VID = 0.4 V) (IO = 8.0 mA, VID = - 0.4 V) p Symbol p - - 0.2 - 0.2 IIB(D) Rin mA - - - - 2.3 - 2.8 6.0 K - - Ohms V VOH VOL 2.7 - - - - 0.45 - - - - - 20 20 A Output Third State Leakage Current (VI(D) = + 3.0 V, VIL = 0.8 V, VO = 0.4 V) (VI(D) = - 3.0 V, VIL = 0.8 V, VO = 2.4 V) IOZ Output Short Circuit Current (VI(D) = 3.0 V, VIH = 2.0 V, VO = 0 V, See Note 4) IOS - 15 - - 85 mA Input Current - Low Logic State (Three-State Control) (VIL = 0.4 V) IIL - - - 360 A Input Current - High Logic State (Three-State Control) (VIH = 2.7 V) (VIH = 5.5 V) IIH - - - - 20 100 Input Clamp Diode Voltage (Three-State Control) (IIC = - 18 mA) VIK - - - 1.5 V Power Supply Current (VIL = 0 V) (All Inputs Grounded) ICC - - 70 mA A NOTES: 1. All currents into device pins are shown as positive, out of device pins are negative. All voltages referenced to ground unless otherwise noted. 2. Differential input threshold voltage and guaranteed output levels are done simultaneously for worst case. 3. Refer to EIA-422/3 for exact conditions. Input balance and guaranteed output levels are done simultaneously for worst case. 4. Only one output at a time should be shorted. 2 MOTOROLA ANALOG IC DEVICE DATA AM26LS32 SWITCHING CHARACTERISTICS (VCC = 5.0 V and TA = 25C, unless otherwise noted) Characteristic Propagation Delay Time - DIfferential Inputs to Output (Output High to Low) (Output Low to High) Symbol Min Typ Max tPHL(D) tPLH(D) - - - - 30 30 tPLZ tPHZ tPZH tPZL - - - - - - - - 35 35 30 30 Unit ns Propagation Delay Time - Three-State Control to Output (Output Low to Third State) (Output High to Third State) (Output Third State to High) (Output Third State to Low) ns Figure 1. Switching Test Circuit and Wave for Propagation Delay Differential Input to Output To Scope (Input) To Scope (Output) + 2.5 V Input Differential Inputs + - 2.5 V - tPLH(D) VOH CL = 15 pF (Includes Probe and Stray Capacitance) 51 Pulse Generator 0V + 2.0 V VOL 0V 0V 0V tPHL(D) Output 1.3 V 1.3 V Input Pulse Characteristics tTLH - tTHL - 6.0 ns (10% to 90%) PRR - 1.0 MHz, 50% Duty Cycle 3-State Control Figure 2. Propagation Delay Three-State Control Input to Output To Scope (Input) Input Pulse Characteristics tTLH - tTHL - 6.0 ns (10% to 90%) PRR - 1.0 MHz, 50% Duty Cycle 3-State Control 51 Pulse Generator To Scope (Output) 2.0 V - + 1.5 V for tPHZ and tPZH - 1.5 V for tPLZ and tPZL SW1 2.0 k + 5.0 V + Differential Inputs CL 15 pF (Includes Probe and Stray Capacitance) All Diodes 1N916 or Equivalent 5.0 k SW2 tPLZ 3.0 V 3.0 V SW1 Closed SW2 Closed 0V tPLZ [ 1.3 V Output VOL 3.0 V 0V 0V 0.5 V [ 1.3 V tPZH 3.0 V SW1 Open SW2 Closed tPZH VOH Output tPHZ Output 0.5 V 1.5 V 0V MOTOROLA ANALOG IC DEVICE DATA SW1 Closed SW2 Closed 0V VOH 1.5 V Input 1.5 V Input 1.5 V Input tPHZ 0V tPZL 1.5 V Input 0V [ 5.0 V - VBE Output VOL SW1 Closed SW2 Open tPZL 1.5 V 0V 3 AM26LS32 OUTLINE DIMENSIONS D SUFFIX PLASTIC PACKAGE CASE 751B-05 (SO-16) ISSUE J -A- 16 NOTES: 1. DIMENSIONING AND TOLERANCING PER ANSI Y14.5M, 1982. 2. CONTROLLING DIMENSION: MILLIMETER. 3. DIMENSIONS A AND B DO NOT INCLUDE MOLD PROTRUSION. 4. MAXIMUM MOLD PROTRUSION 0.15 (0.006) PER SIDE. 5. DIMENSION D DOES NOT INCLUDE DAMBAR PROTRUSION. ALLOWABLE DAMBAR PROTRUSION SHALL BE 0.127 (0.005) TOTAL IN EXCESS OF THE D DIMENSION AT MAXIMUM MATERIAL CONDITION. 9 -B- 1 P 8 PL 0.25 (0.010) 8 M B S G R K F X 45 _ C -T- SEATING PLANE J M D 16 PL 0.25 (0.010) M T B S A S PC SUFFIX PLASTIC PACKAGE CASE 648-08 ISSUE R -A- 16 9 1 8 C L S -T- SEATING PLANE K H G D J 16 PL 0.25 (0.010) M T A M MILLIMETERS MIN MAX 9.80 10.00 3.80 4.00 1.35 1.75 0.35 0.49 0.40 1.25 1.27 BSC 0.19 0.25 0.10 0.25 0_ 7_ 5.80 6.20 0.25 0.50 INCHES MIN MAX 0.386 0.393 0.150 0.157 0.054 0.068 0.014 0.019 0.016 0.049 0.050 BSC 0.008 0.009 0.004 0.009 0_ 7_ 0.229 0.244 0.010 0.019 NOTES: 1. DIMENSIONING AND TOLERANCING PER ANSI Y14.5M, 1982. 2. CONTROLLING DIMENSION: INCH. 3. DIMENSION L TO CENTER OF LEADS WHEN FORMED PARALLEL. 4. DIMENSION B DOES NOT INCLUDE MOLD FLASH. 5. ROUNDED CORNERS OPTIONAL. B F DIM A B C D F G J K M P R M DIM A B C D F G H J K L M S INCHES MIN MAX 0.740 0.770 0.250 0.270 0.145 0.175 0.015 0.021 0.040 0.70 0.100 BSC 0.050 BSC 0.008 0.015 0.110 0.130 0.295 0.305 0_ 10 _ 0.020 0.040 MILLIMETERS MIN MAX 18.80 19.55 6.35 6.85 3.69 4.44 0.39 0.53 1.02 1.77 2.54 BSC 1.27 BSC 0.21 0.38 2.80 3.30 7.50 7.74 0_ 10 _ 0.51 1.01 Motorola reserves the right to make changes without further notice to any products herein. Motorola makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does Motorola 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 consequential or incidental damages. "Typical" parameters can and do vary in different applications. All operating parameters, including "Typicals" must be validated for each customer application by customer's technical experts. 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