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74ALVCH16501 Datenblatt(PDF) 2 Page - NXP Semiconductors |
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74ALVCH16501 Datenblatt(HTML) 2 Page - NXP Semiconductors |
2 / 13 page Philips Semiconductors Product specification 74ALVCH16501 18-bit universal bus transceiver (3-State) 2 1998 Sep 29 853–2091 20106 FEATURES • Complies with JEDEC standard no. 8-1A. • CMOS low power consumption • Direct interface with TTL levels • Current drive ± 24 mA at 3.0 V • Universal bus transceiver with D-type latches and D-type flip-flops capable of operating in transparent, latched or clocked mode. • All inputs have bushold circuitry • Output drive capability 50Ω transmission lines @ 85°C • 3-State non-inverting outputs for bus oriented applications DESCRIPTION The 74ALVCH16501 is an 18-bit universal transceiver featuring non-inverting 3-State bus compatible outputs in both send and receive directions. Data flow in each direction is controlled by output enable (OEAB and OEBA), latch enable (LEAB and LEBA), and clock (CPAB and CPBA) inputs. For A-to-B data flow, the device operates in the transparent mode when LEAB is High. When LEAB is Low, the A data is latched if CPAB is held at a High or Low logic level. If LEAB is Low, the A-bus data is stored in the latch/flip-flop on the Low-to-High transition of CPAB. When OEAB is High, the outputs are active. When OEAB is Low, the outputs are in the high-impedance state. Data flow for B-to-A is similar to that of A-to-B but uses OEBA, LEBA and CPBA. The output enables are complimentary (OEAB is active High, and OEBA is active Low). To ensure the high impedance state during power up or power down, OEBA should be tied to VCC through a pullup resistor and OEAB should be tied to GND through a pulldown resistor; the minimum value of the resistor is determined by the current-sinking/current-sourcing capability of the driver. Active bus hold circuitry is provided to hold unused or floating data inputs at a valid logic level. QUICK REFERENCE DATA GND = 0V; Tamb = 25°C; tr = tf = 2.5ns SYMBOL PARAMETER CONDITIONS TYPICAL UNIT tPHL/tPLH Propagation delay An, Bn to Bn, An VCC = 2.5V, CL = 30pF VCC = 3.3V, CL = 50pF 2.8 3.0 ns CI/O Input/output capacitance 8.0 pF CI Input capacitance 4.0 pF CPD Power dissipation capacitance per VI = GND to VCC1 Outputs enabled 21 pF CPD latch VI = GND to VCC1 Outputs disabled 3 F NOTES: 1. CPD is used to determine the dynamic power dissipation (PD in µW): PD = CPD × VCC2 × fi + S (CL × VCC2 × fo) where: fi = input frequency in MHz; CL = output load capacitance in pF; fo = output frequency in MHz; VCC = supply voltage in V; S (CL × VCC2 × fo) = sum of outputs. ORDERING INFORMATION PACKAGES TEMPERATURE RANGE OUTSIDE NORTH AMERICA DWG NUMBER 56-Pin Plastic TSSOP Type II –40 °C to +85°C 74ALVCH16501 DGG SOT364-1 |
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