HD74LVC1G17 Schmitt-trigger Buffer REJ03D0508–0100 Rev.1.00 Mar. 04, 2005 Description The HD74LVC1G17 has a Schmitt-trigger buffer in a 5-pin package. Low voltage and high-speed operation is suitable for the battery powered products (e.g., notebook computers), and the low power consumption extends the battery life. Features • The basic gate function is lined up as Renesas uni logic series. • Supply voltage range : 1.65 to 5.5 V Operating temperature range: –40 to +85°C • All inputs: VIH (Max.) = 5.5 V (@VCC = 0 V to 5.5 V) All outputs: VO (Max.) = 5.5 V (@VCC = 0 V) • Output current: ±4 mA (@VCC = 1.65 V) ±8 mA (@VCC = 2.3 V) ±24 mA (@VCC = 3.0 V) ±32 mA (@VCC = 4.5 V) • Ordering Information Part Name HD74LVC1G17CLE Package Type Package Code (Previous Code) Package Abbreviation WCSP-5 pin SXBG0005KB–A CL (TBS-5AV) Article Indication Marking Year code Month code EKYM Rev.1.00 Mar. 04, 2005 page 1 of 7 Taping Abbreviation (Quantity) E (3,000 pcs/reel) HD74LVC1G17 Function Table Input A Output Y H H L L H: High level L: Low level Pin Arrangement 0.9 mm GND 3 A 2 DNU* 1 4 Y 1.4 mm Height 0.5 mm 0.5 mm pitch 0.23 mm 5–Ball (CL) 5 Pin#1 INDEX VCC DNU : Do not use. (Bottom view) (Top view) Logic Diagram A Rev.1.00 Mar. 04, 2005 page 2 of 7 Y HD74LVC1G17 Absolute Maximum Ratings Item Symbol Ratings Unit Supply voltage range VCC –0.5 to 6.5 V Input voltage range *1 VI –0.5 to 6.5 V VO –0.5 to VCC +0.5 V Output voltage range *1, 2 –0.5 to 6.5 Test Conditions Output : H or L VCC : OFF Input clamp current IIK –50 Output clamp current IOK –50 mA VO < 0 Continuous output current IO ±50 mA VO = 0 to VCC ICC or IGND ±100 mA θja 132 °C/W Tstg –65 to 150 °C Continuous current through VCC or GND Package Thermal impedance Storage temperature Notes: mA VI < 0 CL The absolute maximum ratings are values, which must not individually be exceeded, and furthermore no two of which may be realized at the same time. 1. The input and output voltage ratings ngs may be exceeded if the input and output clamp-current ratings are observed. 2. This value is limited to 5.5 V maximum. Recommended Operating Conditions Item Symbol Min Max Unit VCC 1.65 5.5 V Input voltage range VI 0 5.5 V Output voltage range VO 0 VCC V Output current IOL — 4 mA Supply voltage range IOH Operating free-air temperature Ta VCC = 1.65 V — 8 VCC = 2.3 V — 16 VCC = 3.0 V — 24 — 32 VCC = 4.5 V — –4 VCC = 1.65 V — –8 VCC = 2.3 V — –16 VCC = 3.0 V — –24 — –32 –40 85 Note: Unused or floating inputs must be held high or low. Rev.1.00 Mar. 04, 2005 page 3 of 7 Conditions VCC = 4.5 V °C HD74LVC1G17 Electrical Characteristics Ta = –40 to 85°C Item Threshold voltage Symbol VT VCC (V) Min Typ Max Unit 1.8 0.8 — 1.4 V 2.5 1.2 — 1.7 3.3 1.6 — 2.3 5.0 2.3 — 3.0 1.8 0.4 — 0.7 2.5 0.6 — 1.0 3.3 0.9 — 1.4 5.0 1.5 — 2.0 1.8 0.4 — 0.7 2.5 0.4 — 0.8 3.3 0.4 — 0.9 5.0 0.4 — 1.0 1.65 to 5.5 VCC–0.1 — — 1.65 1.2 — — IOH = –4 mA 2.3 1.9 — — IOH = –8 mA + VT – ∆VT Output voltage VOH 3.0 VOL V Test condition IOH = –100 µA 2.4 — — IOH = –16 mA 2.3 — — IOH = –24 mA 4.5 3.8 — — IOH = –32 mA 1.65 to 5.5 — — 0.1 IOL = 100 µA 1.65 — — 0.45 IOL = 4 mA 2.3 — — 0.3 IOL = 8 mA 3.0 — — 0.4 IOL = 16 mA — — 0.55 IOL = 24 mA 4.5 — — 0.55 Input current IIN 0 to 5.5 — — ±5 µA IOL = 32 mA VIN = 5.5 V or GND Quiescent supply current ICC 5.5 — — 10 µA VIN = VCC or GND, IO = 0 ∆ICC 3 to 5.5 — — 500 Output leakage current IOFF 0 — — ±10 µA VIN or VO = 0 to 5.5 V Input capacitance CIN 3.3 — 3.5 — pF VIN = VCC or GND One input at VCC–0.6 V, Other input at VCC or GND Note: For conditions shown as Min or Max, use the appropriate values under recommended operating conditions. Rev.1.00 Mar. 04, 2005 page 4 of 7 HD74LVC1G17 Switching Characteristics VCC = 1.8 ± 0.15 V FROM Ta = –40 to 85°C Item Symbol Min Max Unit Test Conditions tPLH tPHL 2.8 9.9 ns CL = 15 pF, RL = 1 MΩ 3.8 11.0 Propagation delay time (Input) A TO (Output) Y CL = 30 pF, RL = 1.0 kΩ VCC = 2.5 ± 0.2 V FROM Ta = –40 to 85°C Item Symbol Min Max Unit Test Conditions tPLH tPHL 1.6 5.5 ns CL = 15 pF, RL = 1 MΩ 2.0 6.5 Propagation delay time (Input) A TO (Output) Y CL = 30 pF, RL = 500 Ω VCC = 3.3 ± 0.3 V FROM TO (Input) (Output) Ta = –40 to 85°C Item Symbol Min Max Unit Test Conditions tPLH tPHL 1.5 4.6 ns CL = 15 pF, RL = 1 M MΩ 1.8 5.5 Propagation delay time A Y CL = 50 pF, RL = 500 Ω VCC = 5.0 ± 0.5 V FROM TO (Input) (Output) Ta = –40 to 85°C Item Symbol Min Max Unit Test Conditions tPLH tPHL 0.9 4.4 ns CL = 15 pF, RL = 1 MΩ 1.2 5.0 Propagation delay time A Y CL = 50 pF, RL = 500 Ω Operating Characteristics Ta = 25°C Item Symbol VCC (V) Min Typ Max Unit CPD 1.8 — 20 — pF 2.5 — 21 — 3.3 — 22 — 5.0 — 26 — Power dissipation capacitance Test Circuit Measurement point From Output CL * RL Note: CL includes probe and jig capacitance. Rev.1.00 Mar. 04, 2005 page 5 of 7 Test Conditions f = 10 MHz HD74LVC1G17 • Waveforms tr tf 90% Input VCC 90% Vref Vref 10% 10% GND VOH Vref Output Vref VOL t PLH t PHL INPUTS VCC (V) Vref CL RL ≤ 2 ns VCC / 2 15 pF 1 MΩ ≤ 2 ns VCC / 2 15 pF 1 MΩ 3 V ≤ 2.5 ns 1.5 V 15 pF 1 MΩ VCC ≤ 2.5 ns VCC / 2 15 pF 1 MΩ Vref CL RL VI tr / tf 1.8±0.15 VCC 2.5±0.2 VCC 3.3±0.3 5.0±0.5 INPUTS VCC (V) VI tr / tf 1.8±0.15 VCC ≤ 2 ns VCC / 2 30 pF 1.0 kΩ 2.5±0.2 VCC ≤ 2 ns VCC / 2 30 pF 500 Ω 3.3±0.3 3 V ≤ 2.5 ns 1.5 V 50 pF 500 Ω 5.0±0.5 VCC ≤ 2.5 ns VCC / 2 50 pF 500 Ω Notes: 1. Input waveform: PRR ≤ 10 MHz, Zo = 50 Ω. 2. The output are measured one at a time with one transition per measurement. Rev.1.00 Mar. 04, 2005 page 6 of 7 HD74LVC1G17 Package Dimensions JEITA Package Code S-XFBGA5-0.9x1.4-0.50 RENESAS Code SXBG0005KB-A Previous Code TBS-5AV MASS[Typ.] 0.001g e D ZD ZE C E B e B A 1 Pin#1 index area 2 A 5 × φb y1 C φ× M C A B φ× M C Reference Symbol A1 0.185 (0.315) * 0.25 0.20 0.90 E 1.40 e 0.50 x 0.05 y 0.05 A A1 A2 y C 0.20 y1 * Reference value. Rev.1.00 Mar. 04, 2005 page 7 of 7 Max 0.50 0.155 A2 D Seating plane Nom A b C Dimension in Millimeters Min ZD 0.20 ZE 0.20 Sales Strategic Planning Div. Nippon Bldg., 2-6-2, Ohte-machi, Chiyoda-ku, Tokyo 100-0004, Japan Keep safety first in your circuit designs! 1. Renesas Technology Corp. puts the maximum effort into making semiconductor products better and more reliable, but there is always the possibility that trouble may occur with them. Trouble with semiconductors may lead to personal injury, fire or property damage. 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