74LV132PW ,Quad 2-input NAND Schmitt trigger
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74LV132D-74LV132PW
Quad 2-input NAND Schmitt trigger
General descriptionThe 74LV132 is a low-voltage Si-gate CMOS device that is pin and function compatible
with 74HC132 and 74HCT132.
The 74LV132 contains four 2-input NAND gates which accept standard input signals.
They are capable of transforming slowly changing input signals into sharply defined,
jitter-free output signals.
The gate switches at different points for positive and negative-going signals. The
difference between the positive voltage VT+ and the negative voltage VT−is definedas the
input hysteresis voltage VH.
Features Wide operating voltage: 1.0 V to 5.5 V Optimized for low voltage applications: 1.0 V to 3.6 V Accepts TTL input levels between VCC = 2.7 V and VCC = 3.6 V Typical output ground bounce < 0.8 V at VCC = 3.3 V and Tamb = 25°C Typical HIGH-level output voltage (VOH) undershoot: > 2 V at VCC = 3.3 V and
Tamb =25°C ESD protection: HBM JESD22-A114E exceeds 2000V MM JESD22-A115-A exceeds 200V Multiple package options Specified from −40 °Cto+85 °C and from −40°Cto +125°C
Applications Wave and pulse shapers for highly noisy environments Astable multivibrators Monostable multivibrators
74L V132
Quad 2-input NAND Schmitt trigger
Rev. 05 — 2 July 2009 Product data sheet
NXP Semiconductors 74L V132
Quad 2-input NAND Schmitt trigger Ordering information Functional diagram
Table 1. Ordering information74LV132N −40°Cto +125°C DIP14 plastic dual in-line package; 14 leads (300 mil) SOT27-1
74LV132D −40°Cto +125°C SO14 plastic small outline package; 14 leads;
body width 3.9 mm
SOT108-1
74LV132DB −40°Cto +125°C SSOP14 plastic shrink small outline package; 14 leads;
body width 5.3 mm
SOT337-1
74LV132PW −40°Cto +125°C TSSOP14 plastic thin shrink small outline package; 14 leads;
body width 4.4 mm
SOT402-1
74LV132BQ −40°Cto +125°C DHVQFN14 plastic dual in-line compatible thermal enhanced very
thin quad flat package; no leads; 14 terminals;
body 2.5×3× 0.85 mm
SOT762-1
NXP Semiconductors 74L V132
Quad 2-input NAND Schmitt trigger Pinning information
6.1 Pinning
6.2 Pin description
Table 2. Pin description 1 data input 2 data input 3 data output 4 data input 5 data input 6 data output
GND 7 ground (0V) 8 data output 9 data input 10 data input 11 data output 12 data input 13 data input
VCC 14 supply voltage
NXP Semiconductors 74L V132
Quad 2-input NAND Schmitt trigger Functional description Limiting values[1] The input and output voltage ratings may be exceeded if the input and output current ratings are observed.
[2] Ptot derates linearly with 12 mW/K above 70°C.
[3] Ptot derates linearly with 8 mW/K above 70°C.
[4] Ptot derates linearly with 5.5 mW/K above 60°C.
[5] Ptot derates linearly with 4.5 mW/K above 60°C.
Table 3. Function tableH = HIGH voltage level; L = LOW voltage level.
LLH H H
HHL
Table 4. Limiting valuesIn accordance with the Absolute Maximum Rating System (IEC 60134). Voltages are referenced to GND (ground = 0V).
VCC supply voltage −0.5 +7.0 V
IIK input clamping current VI < −0.5 V orVI >VCC+ 0.5V [1]- ±20 mA
IOK output clamping current VO< −0.5 V orVO >VCC+ 0.5V [1]- ±50 mA output current VO = −0.5 V to (VCC+ 0.5V) - ±25 mA
ICC supply current - 50 mA
IGND ground current −50 - mA
Tstg storage temperature −65 +150 °C
Ptot total power dissipation Tamb = −40 °C to +125°C
DIP14 package [2]- 750 mW
SO14 package [3]- 500 mW
(T)SSOP14 package [4]- 500 mW
DHVQFN14 package [5]- 500 mW
NXP Semiconductors 74L V132
Quad 2-input NAND Schmitt trigger Recommended operating conditions[1] The static characteristics are guaranteed from VCC = 1.2 V to VCC = 5.5 V, but LV devices are guaranteed to function down to
VCC=1.0 V (with input levels GND or VCC).
10. Static characteristics[1] Typical values are measured at Tamb = 25°C.
Table 5. Recommended operating conditionsVoltages are referenced to GND (ground = 0 V).
VCC supply voltage[1] 1.0 3.3 5.5 V input voltage 0 - VCC V output voltage 0 - VCC V
Tamb ambient temperature −40 +25 +125 °C
Table 6. Static characteristicsVoltages are referenced to GND (ground = 0 V).
VOH HIGH-level output voltage VI = VT+ or VT−
lO = −100 μA; VCC = 1.2V - 1.2 - - - V
lO = −100 μA; VCC = 2.0V 1.8 2.0 - 1.8 - V
lO = −100 μA; VCC = 2.7V 2.5 2.7 - 2.5 - V
lO = −100 μA; VCC = 3.0V 2.8 3.0 - 2.8 - V
lO = −100 μA; VCC = 4.5V 4.3 4.5 - 4.3 - V
lO = −6 mA; VCC = 3.0V 2.4 2.82 - 2.2 - V
lO = −12 mA; VCC = 4.5V 3.6 4.2 - 3.5 - V
VOL LOW-level output voltage VI = VT+ or VT−
IO = 100 μA; VCC = 1.2V - 0 - - - V
IO = 100 μA; VCC = 2.0V - 0 0.2 - 0.2 V
IO = 100 μA; VCC = 2.7V - 0 0.2 - 0.2 V
IO = 100 μA; VCC = 3.0V - 0 0.2 - 0.2 V
IO = 100 μA; VCC = 4.5V - 0 0.2 - 0.2 V
IO = 6 mA; VCC = 3.0V - 0.25 0.40 - 0.50 V
IO = 12 mA; VCC = 4.5V - 0.35 0.55 - 0.65 V input leakage current VI =VCCor GND;
VCC= 5.5V - 1.0 - 1.0 μA
ICC supply current VI = VCC or GND; IO = 0A;
VCC= 5.5V - 20.0 - 40 μA
ΔICC additional supply current per input; VI = VCC − 0.6V;
VCC= 2.7Vto 3.6V - 500 - 850 μA input capacitance - 3.5 - - - pF
NXP Semiconductors 74L V132
Quad 2-input NAND Schmitt trigger
11. Dynamic characteristics[1] All typical values are measured at Tamb =25°C.
[2] tpd is the same as tPLH and tPHL.
[3] Typical values are measured at nominal supply voltage (VCC = 3.3 V and VCC = 5.0V).
[4] CPD is used to determine the dynamic power dissipation (PDin μW). =CPD× VCC2×fi× N+ Σ(CL× VCC2×fo) where: = input frequency in MHz, fo= output frequency in MHz= output load capacitance inpF
VCC= supply voltage in V= number of inputs switching
Σ(CL× VCC2×fo)= sum of the outputs.
12. Waveforms
Table 7. Dynamic characteristicsGND = 0 V; For test circuit see Figure7.
tpd propagation delay nA, nB to nY; see Figure6 [2]
VCC = 1.2 V - 65 - - - ns
VCC = 2.0 V - 18 34 - 43 ns
VCC = 2.7 V - 15 24 - 30 ns
VCC = 3.0 V to 3.6 V; CL =15pF [3] -10 - - - ns
VCC = 3.0 V to 3.6 V [3] - 12 20 - 25 ns
VCC = 4.5 V to 5.5 V [3] - 9.0 14 - 17 ns
CPD power dissipation
capacitance=50 pF; fi = 1 MHz;= GNDto VCC
[4] -24 - - - pF
NXP Semiconductors 74L V132
Quad 2-input NAND Schmitt trigger
13. Transfer characteristics
Table 8. Measurement points< 2.7 V 0.5VCC 0.5VCC
2.7 V to 3.6V 1.5 V 1.5 V
≥ 4.5 V 0.5VCC 0.5VCC
Table 9. Test data< 2.7 V VCC ≤ 2.5 ns
2.7 V to 3.6V 2.7 V ≤ 2.5 ns
≥ 4.5 V VCC ≤ 2.5 ns
Table 10. Transfer characteristicsGND = 0 V; For test circuit see Figure7.
VT+ positive-going
threshold voltage
see Figure6
VCC = 1.2 V - 0.70 - - - V
VCC = 2.0 V 0.8 1.10 1.4 0.8 1.4 V
VCC = 2.7 V 1.0 1.45 2.0 1.0 2.0 V
VCC = 3.0 V 1.2 1.60 2.2 1.2 2.2 V
VCC = 3.6 V 1.5 1.95 2.4 1.5 2.4 V
VCC = 4.5 V 1.7 2.50 3.2 1.7 3.2 V
VCC = 5.5 V 2.1 3.00 3.9 2.1 3.9 V
NXP Semiconductors 74L V132
Quad 2-input NAND Schmitt trigger[1] All typical values are measured at Tamb =25°C.
14. Waveforms transfer characteristicsVT− negative-going
threshold voltage
see Figure6
VCC = 1.2 V - 0.34 - - - V
VCC = 2.0 V 0.3 0.65 0.9 0.3 0.9 V
VCC = 2.7 V 0.4 0.90 1.4 0.4 1.4 V
VCC = 3.0 V 0.6 1.05 1.5 0.6 1.5 V
VCC = 3.6 V 0.8 1.30 1.8 0.8 1.8 V
VCC = 4.5 V 0.9 1.60 2.0 0.9 2.0 V
VCC = 5.5 V 1.2 2.00 2.6 1.2 2.6 V hysteresis voltage (VT+− VT−); see Figure6
VCC = 1.2 V - 0.3 - - - V
VCC = 2.0 V 0.2 0.55 0.8 0.2 0.8 V
VCC = 2.7 V 0.3 0.60 1.1 0.3 1.1 V
VCC = 3.0 V 0.4 0.65 1.2 0.4 1.2 V
VCC = 3.6 V 0.4 0.70 1.2 0.4 1.2 V
VCC = 4.5 V 0.4 0.80 1.4 0.4 1.4 V
VCC = 5.5 V 0.6 1.00 1.5 0.6 1.5 V
Table 10. Transfer characteristics …continuedGND = 0 V; For test circuit see Figure7.
NXP Semiconductors 74L V132
Quad 2-input NAND Schmitt trigger
