RD74VT1G08CLE

RD74VT1G08 2–input AND Gate / Dual Supply Voltage Translator REJ03D0495–0200 Rev.2.00 Apr. 01, 2005 Description The RD74VT1G08 has two–input AND gate in a 6 pin package. The input is designed to track VCCIN, which accepts voltages from 1.2 V to 3.6 V, and the output is designed to track VCCOUT, which operates at 1.2 V to 3.6 V. 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 • This product function as level shift that change VCCIN input level to VCCOUT output level by providing different supply voltage to VCCIN and VCCOUT. • Supplied on emboss taping for high-speed automatic mounting. • Supply voltage range: VCCIN = 1.2 V to 3.6 V VCCOUT = 1.2 V to 3.6 V OUT • Operating temperature range: −40 to +85°C • All inputs VIH (Max.) = 3.6 V (@VCCIN = 0 V to 3.6 V) IN Outputs VO (Max.) = 3.6 V (@VCCOUT = 0 V) OUT • Output current ±2 mA (@VCCOUT = 1.2 V) OUT ±4 mA (@VCCOUT = 1.4 V to 1.6 V) OUT ±6 mA (@VCCOUT = 1.65 V to 1.95 V) OUT ±18 mA (@VCCOUT = 2.3 V to 2.7 V) CC ±24 ±24 mA (@VCCOUT = 3.0 V to 3.6 V) • Ordering Information Part Name RD74VT1G08CLE Package Type WCSP–6 pin Package Code (Previous (Previous Code) SXBG0006KB–A (TBS–6AV) Package Abbreviation CL Taping Abbreviation (Quantity) E (3,000 pcs / reel) Article Indication Marking Year code Month code V2YM Rev.2.00 Apr. 01, 2005 page 1 of 7 RD74VT1G08 Function Table Inputs A L H L H H: High level L: Low level B L L H H OUTPUT Y L L L H Pin Arrangement 0.9 mm Height 0.5 mm 0.5 mm pitch 0.23 mm 6–Ball (CL) GND 3 4 Y A 2 5 VCCOUT 1.4 mm Pin#1 INDEX B 1 6 VCCIN (Bottom (Bottom view) (Top view) Logic Diagram A B Y Rev.2.00 Apr. 01, 2005 page 2 of 7 RD74VT1G08 Absolute Maximum Ratings Item Supply voltage range Input voltage range *1 Output voltage range Input clamp current Output clamp current Continuous output current Continuous output current VCC or GND Package Thermal impedance Storage temperature Notes: *1, 2 Symbol VCCIN, VCCOUT VI VO IIK IOK IO ICCIN, ICCOUT, IGND θja Tstg Ratings –0.5 to 4.6 –0.5 to 4.6 –0.5 to VCCOUT+0.5 –0.5 to 4.6 –50 –50 50 ±50 ±100 123 –65 to 150 –65 Unit V V V mA mA mA mA °C/W °C Conditions Output: “H” or “L” VCCOUT: OFF VI < 0 VO < 0 VO > VCC+0.5 The absolute maximum ratings are values, which must not individually be exceeded, and furthermore, no two st of which may be realized at the same time. 1. The input and output voltage ratings may be exceeded if the input and output clamp-current ratings are ngs output observed. 2. This value is limited to 4.6 V maximum. Recommended Operating Conditions Item Supply voltage range Input/Output voltage Symbol VCCIN IN VCCOUT CC VI VO Output current IOH Ratings 1.2 to 3.6 1.2 to 3.6 0 to 3.6 0 to VCCOUT 0 to 3.6 –2 –4 –6 –18 –24 IOL 2 4 6 18 24 Input transition rise or fall time Operation free-air temperature ∆t / ∆v Ta 10 –40 to 85 ns / V °C mA mA V V Output: “H” or “L” VCCOUT: OFF VCCOUT = 1.2 V VCCOUT = 1.5±0.1 V VCCOUT = 1.8±0.15 V VCCOUT = 2.5±0.2 V VCCOUT = 3.3±0.3 V VCCOUT = 1.2 V VCCOUT = 1.5±0.1 V VCCOUT = 1.8±0.15 V VCCOUT = 2.5±0.2 V VCCOUT = 3.3±0.3 V Unit V Conditions Rev.2.00 Apr. 01, 2005 page 3 of 7 RD74VT1G08 Electrical Characteristics (Ta = −40 to 85°C) Item Input voltage Symbol VCCIN (V) VIH 1.2 1.5±0.1 1.8±0.15 2.5±0.2 3.3±0.3 1.2 VIL 1.5±0.1 1.8±0.15 2.5±0.2 3.3±0.3 Output voltage VOH 1.2 to 3.6 * VCCOUT (V) 1.2 to 3.6 * 1.2 to 3.6 VOL 1.2 to 3.6 Input current Output leakage current Quiescent supply current IIN IOFF ICCIN ICCOUT 3.6 0 1.2 to 3.6 1.2 to 3.6 3.6 3.3 1.2 to 3.6 1.2 1.5±0.1 1.8±0.15 2.5±0.2 3.3±0.3 1.2 to 3.6 1.2 1.5±0.1 1.8±0.15 2.5±0.2 3.3±0.3 3.6 0 1.2 to 3.6 1.2 to 3.6 3.6 3.3 Min VCCIN×0.75 VCCIN×0.70 VCCIN×0.65 1.6 2.0      VCCOUT−0.2 0.9 1.1 1.25 1.7 2.2       –1.0  –3.0 –3.0   Typ                            3.5 Max      VCCIN×0.25 VCCIN×0.30 VCCIN×0.35 0.7 0.8       0.2 0.3 0.3 0.3 0.6 0.55 1.0 1.5 3.0 3.0 250  Unit V Test conditions V V V µA µA µA Increase in ICC per input Input capacitance ∆ICC CIN µA pF IOH = –100 µA IOH = –2 mA IOH = –4 mA IOH = –6 mA IOH = –18 mA IOH = –24 mA IOL = 100 µA IOL = 2 mA IOL = 4 mA IOL = 6 mA IOL = 18 mA IOL = 24 mA VIN = GND or VCCIN VIN, VOUT = 0 to 3.6 V IO(Y port) = 0 VIN = VCCIN or GND IO(Y port) = 0 VIN = VCCIN or GND A or B port VCCIN–0.6 (1 input) VIN = VCC or GND Note: For conditions shown as Min or Max, use the appropriate values under recommended operating conditions. Switching Characteristics VCCIN = 3.3±0.3 V Ta = –40 to 85°C VCCOUT= From Item Propagation delay time To 1.2 V Typ 8.4 8.4 Symbol (input) (output) tPLH tPHL A or B Y VCCOUT= 1.5±0.1 V Min 2.0 2.0 Max 7.8 7.8 VCCOUT= 1.8±0.15 V Min 1.5 1.5 Max 5.2 5.2 VCCOUT= 2.5±0.2 V Min 1.0 1.0 Max 4.1 4.1 VCCOUT= 3.3±0.3 V Min 1.0 1.0 Max 3.5 3.5 Test Unit conditions ns CL = 15pF RL = 2.0kΩ Rev.2.00 Apr. 01, 2005 page 4 of 7 RD74VT1G08 Switching Characteristics (Cont.) VCCIN = 2.5±0.2 V Ta = –40 to 85°C VCCOUT= From Item Propagation delay time To 1.2 V Typ 8.5 8.5 Symbol (input) (output) tPLH tPHL A or B Y VCCOUT= 1.5±0.1 V Min 2.0 2.0 Max 8.2 8.2 VCCOUT= 1.8±0.15 V Min 1.5 1.5 Max 5.5 5.5 VCCOUT= 2.5±0.2 V Min 1.0 1.0 Max 4.3 4.3 VCCOUT= 3.3±0.3 V Min 1.0 1.0 Max 3.9 3.9 Test Unit conditions ns CL = 15pF RL = 2.0kΩ VCCIN = 1.8±0.15 V Ta = –40 to 85°C VCCOUT= From Item Propagation delay time To 1.2 V Typ 8.7 8.7 8.7 Symbol (input) (output) tPLH tPHL A or B Y VCCOUT= 1.5±0.1 V Min 2.0 2.0 Max 8.6 8.6 VCCOUT= 1.8±0.15 V Min 1.5 1.5 Max 6.6 6.6 VCCOUT= 2.5±0.2 V Min 1.0 1.0 Max 5.9 5.9 VCCOUT= 3.3±0.3 V Min 1.0 1.0 Max 5.5 5.5 Test Unit conditions ns CL = 15pF RL = 2.0kΩ VCCIN = 1.5±0.1 V Ta = –40 to 85°C VCCOUT= From Item Propagation delay time To 1.2 V Typ Typ 8.9 8.9 8.9 8.9 Symbol (input) (output) tPLH tPHL A or B Y VCCOUT= 1.5±0.1 V Min 2.0 2.0 Max 10.0 10.0 VCCOUT= CC 1.8±0.15 1.8±0.15 V Min 1.5 1.5 Max 8.4 8.4 VCCOUT= 2.5±0.2 2.5±0.2 V Min 1.0 1.0 Max 7.4 7.4 VCCOUT= 3.3±0.3 V 3.3±0.3 Min 1.0 1.0 Max 7.2 7.2 Test Unit conditions ns CL = 15pF RL = 2.0kΩ VCCIN = 1.2 V Ta = –40 to 85°C VCCOUT= From Item Propagation delay time To 1.2 V 1.2 Typ Typ 10.5 10.5 10.5 10.5 Symbol (input) (output) tPLH tPHL A or B or Y VCCOUT= 1.5±0.1 V 1.5±0.1 Typ 9.0 9.0 VCCOUT= 1.8±0.15 V Typ 8.2 8.2 VCCOUT= 2.5±0.2 V Typ 7.6 7.6 VCCOUT= 3.3±0.3 V Typ 7.5 7.5 Test Unit conditions ns CL = 15pF RL = 2.0kΩ Operating Operating Characteristics Ta = 25°C Item Power dissipation capacitance Symbol CPD VCCIN (V) 3.3 VCCOUT (V) Min 3.3  Typ 12 Max  Unit pF Test conditions f = 10 MHz CL = 0 Power-up Considerations Level-translation devices offer an opportunity for successful mixed-voltage signal design. A proper power-up sequence always should be followed to avoid excessive supply current, bus contention, oscillations, or other anomalies caused by improperly biased device pins. Take these precautions to guard against such power-up problems. 1. Connect ground before any supply voltage is applied. 2. Next, power up the input side of the device. (Power up of VCCIN is first. Next power up is VCCOUT) Rev.2.00 Apr. 01, 2005 page 5 of 7 RD74VT1G08 Test Circuit VCCIN VCCOUT Pulse generator ZOUT = 50 Ω A or B Y Output CL =15pF RL = 2kΩ Note: CL includes probe and jig capacitance. • Waveforms tr tf 90% Input Vref 10% 90% Vref 10% VCC GND VOH Vref Vref VOL t PLH t PHL Output Symbol VCC = 1.2 V to 3.6 V tr / tf VIH Vref 2.0 ns VCC 1/2 VCC Note: Input waveform: PRR ≤10 MHz, ZO = 50 Ω, duty cycle 50%. Rev.2.00 Apr. 01, 2005 page 6 of 7 RD74VT1G08 Package Dimensions JEITA Package Code S-XFBGA6-0.9x1.4-0.50 RENESAS Code SXBG0006KB-A Previous Code TBS-6AV MASS[Typ.] 0.001g e D ZD C B E B A 1 Pin#1 index area A 6 × φb y1 C 2 Reference Symbol e ZE Dimension in Millimeters Min Nom Max 0.50 0.155 0.185 (0.315) * 0.25 0.90 1.40 0.50 0.05 0.05 A A1 A2 b D 0.20 φ× M C A B φ× M C C Seating plane E e x A1 A2 A yC y y 1 D E 0.20 0.20 0.20 * Reference value. Z Z Rev.2.00 Apr. 01, 2005 page 7 of 7 Sales Strategic Planning Div. Keep safety first in your circuit designs! Nippon Bldg., 2-6-2, Ohte-machi, Chiyoda-ku, Tokyo 100-0004, Japan 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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