mc26ls30 ON Semiconductor, mc26ls30 Datasheet
mc26ls30
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mc26ls30 Summary of contents
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... Quad Single−Ended (EIA−423−A) Line Drivers The MC26LS30 is a low power Schottky set of line drivers which can be configured as two differential drivers which comply with EIA−422−A standards four single−ended drivers which comply with EIA−423−A standards. A mode select pin and appropriate choice of power supplies determine the mode ...
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... Input Voltage (All Inputs) Applied Output Voltage (when in High Impedance Mode) Applied Output Voltage Output Current Operating Ambient Temperature (See text) All limits are not necessarily functional concurrently. MC26LS30 (Pin numbers refer to SO−16 package only.) Symbol ...
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... All voltages measured with respect to Pin 5. 2. Only one output shorted at a time, for not more than 1 second. 3. Typical values established at + switched from 0 Imbalance is the difference between V O2 MC26LS30 (EIA−422−A differential mode, Pin 4 p 0.8 V, − Symbol V OD1 V OD2 V (Note 4) ...
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... All voltages measured with respect to Pin 5. 2. Only one output shorted at a time, for not more than 1 second. 3. Typical values established at + switched from 0 Imbalance is the difference between V MC26LS30 (EIA−423−A single−ended mode, Pin 4 q 2.0 V, − Symbol Symbol = +5 − ...
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... S.G. set to 1.0 MHz; duty cycle = 50 −t for each driver. SK1 PDH PDL 3. t computed by subtracting the shortest t SK2 4. t computed by subtracting the shortest t SK3 Figure 3. Differential Mode Rise/Fall Time and Data Propagation Delay MC26LS30 Table 1 Inputs V V Mode +5.0 +5.0 Gnd Gnd 0 ...
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... S.G. set to 100 kHz; duty cycle = 50 −t for each driver. SK4 PDH PDL 3. t computed by subtracting the shortest t SK5 4. t computed by subtracting the shortest t SK6 Figure 5. Single−Ended Mode Rise/Fall Time and Data Propagation Delay MC26LS30 1 PHZ 0 Hi) in Output Current ...
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... Single−Ended Mode 3.5 Mode = 5 −5 3.0 0 −10 −20 −30 − OUTPUT CURRENT (mA) OH Figure 10. Output Voltage versus Output Source Current MC26LS30 40 Differential Mode Mode = 0 Supply Current = Bias Current + Load Current 5. +5 −5.0 V − ...
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... CC EE −100 −6.0 −4.0 −2 APPLIED OUTPUT VOLTAGE (V) za Figure 14. Short Circuit Current versus Output Voltage 1.0 k 100 10 1.0 10 MC26LS30 0 −5.0 −10 Single−Ended Mode −15 Mode = 5 Supply Current = Bias Current + I −20 −160 −240 240 160 I OH Figure 13. Internal Negative Bias Current ...
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... Description The MC26LS30 is a dual function line driver − it can be configured as two differential output drivers which comply with EIA−422−A Standard four single−ended drivers which comply with EIA−423−A Standard. The mode of operation is selected with the Mode pin (Pin 4) and appropriate power supplies (see Table 1) ...
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... −60 mA (each driver suitability of the package types is calculated as follows. The power dissipated is: MC26LS30 3 454 mW The junction temperature calculates to 85°C ) (0.454 W SOIC package. Since the maximum allowable junction temperature is not exceeded in any of the above cases, either package can be used in this application. 2) Single− ...
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... Additionally, they usually do not provide a sufficiently low impedance at the frequencies of interest. Additional Modes of Operation If compliance with EIA−422−A or EIA−423−A Standard is not required in a particular application, the MC26LS30 can be operated in two other modes. 1) The device may be operated in the differential mode (Pin with V ground and − ...
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... Circuit grounds must be connected together through a dedicated wire TTL TTL TTL TTL MC26LS30 MC26LS30 R TTL R TTL En TTL TTL D should be located at the physical ends of the cable. Figure 17. EIA−422−A Example Figure 18. EIA−423−A Example http://onsemi.com ...
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... SEATING PLANE 0.25 (0.010 *For additional information on our Pb−Free strategy and soldering details, please download the ON Semiconductor Soldering and Mounting Techniques Reference Manual, SOLDERRM/D. MC26LS30 PACKAGE DIMENSIONS SO−16 D SUFFIX CASE 751B−05 ISSUE 0.25 (0.010 ...
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... USA/Canada Japan: ON Semiconductor, Japan Customer Focus Center 2−9−1 Kamimeguro, Meguro−ku, Tokyo, Japan 153−0051 Phone: 81−3−5773−3850 http://onsemi.com 14 ON Semiconductor Website: http://onsemi.com Order Literature: http://www.onsemi.com/litorder For additional information, please contact your local Sales Representative. MC26LS30/D ...