74LVC125A
LOW VOLTAGE CMOS QUAD BUS BUFFERS (3-STATE) HIGH PERFORMANCE
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5V TOLERANT INPUTS HIGH SPEED: tPD = 4.8ns (MAX.) at VCC = 3V POWER DOWN PROTECTION ON INPUTS AND OUTPUTS SYMMETRICAL OUTPUT IMPEDANCE: |IOH| = IOL = 24mA (MIN) at VCC = 3V PCI BUS LEVELS GUARANTEED AT 24 mA BALANCED PROPAGATION DELAYS: tPLH ≅ tPHL OPERATING VOLTAGE RANGE: VCC(OPR) = 1.65V to 3.6V (1.2V Data Retention) PIN AND FUNCTION COMPATIBLE WITH 74 SERIES 125 LATCH-UP PERFORMANCE EXCEEDS 500mA (JESD 17) ESD PERFORMANCE: HBM > 2000V (MIL STD 883 method 3015); MM > 200V
SOP
TSSOP
Table 1: Order Codes
PACKAGE SOP TSSOP T&R 74LVC125AMTR 74LVC125ATTR
DESCRIPTION The 74LVC125A is a low voltage CMOS QUAD BUS BUFFER fabricated with sub-micron silicon gate and double-layer metal wiring C2MOS technology. It is ideal for 1.65 to 3.6 VCC operations and low power and low noise applications.
It can be interfaced to 5V signal environment for inputs in mixed 3.3/5V system. These devices require the same 3-STATE control input G to be taken high to make the output go in to the high impedance state. It has more speed performance at 3.3V than 5V AC/ACT family, combined with a lower power consumption. All inputs and outputs are equipped with protection circuits against static discharge, giving them 2KV ESD immunity and transient excess voltage.
Figure 1: Pin Connection And IEC Logic Symbols
July 2004
Rev. 8
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74LVC125A
Figure 2: Input And Output Equivalent Circuit
Table 2: Pin Description
PIN N° 1, 4, 9, 12 2, 5, 10, 13 3, 6, 8, 11 7 14 SYMBOL G1 to G4 A1 to A4 Y1 to Y4 GND VCC NAME AND FUNCTION Output Enable Inputs Data Inputs Data Outputs Ground (0V) Positive Supply Voltage
Table 3: Truth Table
A X L H
X : Don’t care Z : High Impedance
G H L L
Y Z L H
Table 4: Absolute Maximum Ratings
Symbol VCC VI VO VO IIK IOK IO Tstg TL Supply Voltage DC Input Voltage DC Output Voltage (High Impedance or VCC = 0V) DC Output Voltage (High or Low State) (note 1) DC Input Diode Current DC Output Diode Current (note 2) DC Output Current Storage Temperature Lead Temperature (10 sec) Parameter Value -0.5 to +7.0 -0.5 to +7.0 -0.5 to +7.0 -0.5 to VCC + 0.5 - 50 - 50 ± 50 ± 100 -65 to +150 300 Unit V V V V mA mA mA mA °C °C
ICC or IGND DC VCC or Ground Current per Supply Pin
Absolute Maximum Ratings are those values beyond which damage to the device may occur. Functional operation under these conditions is not implied 1) IO absolute maximum rating must be observed 2) VO < GND
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74LVC125A
Table 5: Recommended Operating Conditions
Symbol VCC VI VO VO IOH, IOL IOH, IOL IOH, IOL IOH, IOL Top dt/dv Supply Voltage (note 1) Input Voltage Output Voltage (High Impedance or VCC = 0V) Output Voltage (High or Low State) High or Low Level Output Current (VCC = 3.0 to 3.6V) High or Low Level Output Current (VCC = 2.7 to 3.0V) High or Low Level Output Current (VCC = 2.3 to 2.7V) High or Low Level Output Current (VCC = 1.65 to 2.3V) Operating Temperature Input Rise and Fall Time (note 2) Parameter Value 1.65 to 3.6 0 to 5.5 0 to 5.5 0 to VCC ± 24 ± 12 ±8 ±4 -55 to 125 0 to 10 Unit V V V V mA mA mA mA °C ns/V
1) Truth Table guaranteed: 1.2V to 3.6V 2) VIN from 0.8V to 2V at VCC = 3.0V
Table 6: DC Specifications
Test Condition Symbol Parameter VCC (V) 1.65 to 1.95 2.3 to 2.7 2.7 to 3.6 1.65 to 1.95 2.3 to 2.7 2.7 to 3.6 1.65 to 3.6 1.65 2.3 2.7 3.0 3.0 VOL Low Level Output Voltage 1.65 to 3.6 1.65 2.3 2.7 3.0 II Ioff IOZ Input Leakage Current Power Off Leakage Current High Impedance Output Leakage Current Quiescent Supply Current ICC incr. per Input 3.6 0 3.6 IO=-100 µA IO=-4 mA IO=-8 mA IO=-12 mA IO=-18 mA IO=-24 mA IO=100 µA IO=4 mA IO=8 mA IO=12 mA IO=24 mA VI = 0 to 5.5V VI or VO = 5.5V VI = VIH or VIL VO = 0 to 5.5V VI = VCC or GND 3.6 2.7 to 3.6 VI or VO = 3.6 to 5.5V VIH = VCC-0.6V VCC-0.2 1.2 1.7 2.2 2.4 2.2 0.2 0.45 0.7 0.4 0.55 ±5 10 ±5 -40 to 85 °C Min. 0.65VCC 1.7 2 0.35VCC 0.7 0.8 VCC-0.2 1.2 1.7 2.2 2.4 2.2 0.2 0.45 0.7 0.4 0.55 ±5 10 ±5 µA µA µA V V Max. Value -55 to 125 °C Min. 0.65VCC 1.7 2 0.35VCC 0.7 0.8 V V Max. Unit
VIH
High Level Input Voltage Low Level Input Voltage High Level Output Voltage
VIL
VOH
ICC
10 ± 10 500
10 ± 10 500 µA µA 3/12
∆ICC
74LVC125A
Table 7: Dynamic Switching Characteristics
Test Condition Symbol Parameter VCC (V) 3.3 CL = 50pF VIL = 0V, VIH = 3.3V Value TA = 25 °C Min. Typ. 0.8 -0.8 Max. V Unit
VOLP VOLV
Dynamic Low Level Quiet Output (note 1)
1) Number of output defined as "n". Measured with "n-1" outputs switching from HIGH to LOW or LOW to HIGH. The remaining output is measured in the LOW state.
Table 8: AC Electrical Characteristics
Test Condition Symbol Parameter VCC (V) CL (pF) 30 30 50 50 30 30 50 50 30 30 50 50 RL (Ω ) 1000 500 500 500 1000 500 500 500 1000 500 500 500 ts = t r (ns) 2.0 2.0 2.5 2.5 2.0 2.0 2.5 2.5 2.0 2.0 2.5 2.5 -40 to 85 °C Min. Max. 9.0 6.3 5.5 4.8 9.9 7.4 6.6 5.4 11 5.6 5.0 4.6 1 Value -55 to 125 °C Min. Max. 12 8.5 6.5 5.8 13 9.6 7.9 6.5 14 7.3 6.0 5.5 1 Unit
tPLH tPHL
Propagation Delay Time
tPZL tPZH
tPLZ tPHZ
tOSLH tOSHL
1.65 to 1.95 2.3 to 2.7 2.7 3.0 to 3.6 Output Enable Time 1.65 to 1.95 2.3 to 2.7 2.7 3.0 to 3.6 Output Disable Time 1.65 to 1.95 2.3 to 2.7 2.7 3.0 to 3.6 Output To Output 2.7 to 3.6 Skew Time (note1, 2)
1.5 1
ns
1 1
ns
2 2
ns
ns
1) Skew is defined as the absolute value of the difference between the actual propagation delay for any two outputs of the same device switching in the same direction, either HIGH or LOW (tOSLH = | tPLHm - tPLHn|, tOSHL = | tPHLm - tPHLn| 2) Parameter guaranteed by design
Table 9: Capacitive Characteristics
Test Condition Symbol Parameter VCC (V) Value TA = 25 °C Min. fIN = 10MHz Typ. 4 1.8 2.5 3.3 28 30 34 Max. pF pF Unit
CIN CPD
Input Capacitance Power Dissipation Capacitance (note 1)
1) CPD is defined as the value of the IC’s internal equivalent capacitance which is calculated from the operating current consumption without load. (Refer to Test Circuit). Average operating current can be obtained by the following equation. ICC(opr) = CPD x VCC x fIN + ICC/n (per circuit)
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74LVC125A
Figure 3: Test Circuit
RT = ZOUT of pulse generator (typically 50Ω)
Table 10: Test Circuit And Waveform Symbol Value
Symbol 1.65 to 1.95V CL RL = R1 VS VIH VM VOH VX VY tr = tr 30pF 1000Ω 2 x VCC VCC VCC/2 VCC VOL + 0.15V VOH - 0.15V
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