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| 19-2672; Rev 0; 10/02 +1.2V to +5.5V, 15kV ESD-Protected, 0.1A, 35Mbps, 8-Channel Level Translators General Description The MAX3000E/MAX3001E/MAX3002-MAX3012 8channel level translators provide the level shifting necessary to allow data transfer in a multivoltage system. Externally applied voltages, VCC and VL, set the logic levels on either side of the device. Logic signals present on the VL side of the device appear as a higher voltage logic signal on the VCC side of the device, and vice-versa. The MAX3000E/MAX3001E/MAX3002/MAX3004-MAX3012 feature an EN input that, when low, reduces the VCC and VL supply currents to <2A. The MAX3000E/MAX3001E also have 15kV ESD protection on the I/O VCC side for greater protection in applications that route signals externally. The MAX3000E operates at a guaranteed data rate of 230kbps. The MAX3001E operates at a guaranteed data rate of 4Mbps. The MAX3002- MAX3012 operate at a guaranteed data rate of 20Mbps over the entire specified operating voltage range. The MAX3000E/MAX3001E/MAX3002-MAX3012 accept VL voltages from +1.2V to +5.5V and VCC voltages from +1.65V to +5.5V, making them ideal for data transfer between low-voltage ASICs/PLDs and higher voltage systems. The MAX3000E/MAX3001E/MAX3002- MAX3012 are available in 20-pin UCSPTM and 20-pin TSSOP packages. o Guaranteed Data Rate Options 230kbps (MAX3000E) 4Mbps (MAX3001E) 20Mbps (MAX3002-MAX3012) o Bidirectional Level Translation (MAX3000E/MAX3001E/MAX3002/MAX3003) o Unidirectional Level Translation (MAX3004-MAX3012) o Operation Down to +1.2V on VL o 15kV ESD Protection on I/O VCC Lines (MAX3000E/MAX3001E) o Ultra-Low 0.1A Supply Current in Shutdown o Low Quiescent Current (<10A) o UCSP and TSSOP Packages Features MAX3000E/MAX3001E/MAX3002-MAX3012 Ordering Information PART MAX3000EEUP MAX3000EEBP-T* TEMP RANGE -40C to +85C -40C to +85C PIN-PACKAGE 20 TSSOP 4 x 5 UCSP *Future product--contact factory for availability. Ordering Information continued at end of data sheet. Applications Cell Phones SPITM, MICROWIRETM, and I2C Level Translation Low-Voltage ASIC Level Translation Smart Card Readers Cell-Phone Cradles Portable POS Systems Portable Communication Devices Low-Cost Serial Interfaces GPS Telecommunications Equipment +1.8V SYSTEM CONTROLLER DATA +1.8V Typical Operating Circuit +3.3V VL EN VCC MAX3000E MAX3001E MAX3002- MAX3012 I/O VCC_ +3.3V SYSTEM I/O VL_ DATA GND UCSP is a trademark of Maxim Integrated Products, Inc. SPI is a trademark of Motorola, Inc. MICROWIRE is a trademark of National Semiconductor. Pin Configurations and Functional Diagrams appear at end of data sheet. ________________________________________________________________ Maxim Integrated Products 1 For pricing, delivery, and ordering information, please contact Maxim/Dallas Direct! at 1-888-629-4642, or visit Maxim's website at www.maxim-ic.com. +1.2V to +5.5V, 15kV ESD-Protected, 0.1A, 35Mbps, 8-Channel Level Translators MAX3000E/MAX3001E/MAX3002-MAX3012 ABSOLUTE MAXIMUM RATINGS All Voltages Referenced to GND VCC ...........................................................................-0.3V to +6V VL...........................................................................................-0.3V to +6V I/O VCC_......................................................-0.3V to (VCC + 0.3V) I/O VL_ ...........................................................-0.3V to (VL + 0.3V) EN, EN A/B ...............................................................-0.3V to +6V Short-Circuit Duration I/O VL_, I/O VCC_ to GND .......Continuous Continuous Power Dissipation (TA = +70C) 20-Pin TSSOP (derate 7.0mW/C above +70C) .........559mW 20-Pin UCSP (derate 10mW/C above +70C) ............800mW Operating Temperature Ranges MAX3001EAUP .............................................-40C to +125C MAX300_EE_P .................................................-40C to +85C MAX30_ _E_P ..................................................-40C to +85C Junction Temperature ......................................................+150C Storage Temperature Range ............................-65C to +150C Lead Temperature (soldering, 10s) .................................+300C Stresses beyond those listed under "Absolute Maximum Ratings" may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability. ELECTRICAL CHARACTERISTICS (VCC = +1.65V to +5.5V, VL = +1.2V to VCC, EN = VL (MAX3000E/MAX3001E/MAX3002/MAX3004-MAX3012), EN A/B = VL or 0 (MAX3003), TA = TMIN to TMAX. Typical values are at VCC = +1.65V, VL = +1.2V, and TA = +25C.) (Notes 1, 2) PARAMETER POWER SUPPLIES VL Supply Range VCC Supply Range VL VCC I/O VCC_ = 0, I/O VL _ = 0 or I/O VCC_ = VCC, I/O VL _ = VL, MAX3000E/MAX3002-MAX3012 Supply Current from VCC IQVCC I/O VCC_ = 0, I/O VL _ = 0 or I/O VCC_ = VCC, I/O VL _ = VL, MAX3001E I/O VCC_ = 0, I/O VL _ = 0 or I/O VCC_ = VCC, I/O VL _ = VL, MAX3000E/MAX3002-MAX3012 Supply Current from VL IQVL I/O VCC_ = 0, I/O VL _ = 0 or I/O VCC_ = VCC, I/O VL _ = VL, MAX3001E TA = +25C, EN = 0, MAX3000E/MAX3001E/MAX3002/ ISHDN-VCC MAX3004-MAX3012 TA = +25C, EN A/B = 0, MAX3003 TA = +25C, EN = 0, MAX3000E/MAX3001E/MAX3002/ MAX3004-MAX3012 TA = +25C, EN A/B = 0, MAX3003 0.1 50 0.1 50 1.2 1.65 0.1 5.5 5.50 10 A V V SYMBOL CONDITIONS MIN TYP MAX UNITS 0.1 10 A 0.1 2 A VCC Shutdown Supply Current 0.1 2 0.1 2 A VL Shutdown Supply Current ISHDN-VL 0.1 2 2 _______________________________________________________________________________________ +1.2V to +5.5V, 15kV ESD-Protected, 0.1A, 35Mbps, 8-Channel Level Translators MAX3000E/MAX3001E/MAX3002-MAX3012 ELECTRICAL CHARACTERISTICS (continued) (VCC = +1.65V to +5.5V, VL = +1.2V to VCC, EN = VL (MAX3000E/MAX3001E/MAX3002/MAX3004-MAX3012), EN A/B = VL or 0 (MAX3003), TA = TMIN to TMAX. Typical values are at VCC = +1.65V, VL = +1.2V, and TA = +25C.) (Notes 1, 2) PARAMETER SYMBOL CONDITIONS TA = +25C, EN = 0, MAX3000E/MAX3001E/MAX3002/ MAX3004-MAX3012 TA = +25C, EN A/B = 0, MAX3003 I/O VL _ Three-State Output Leakage Current I/O VL _ Pulldown Resistance During Shutdown EN or EN A/B Input Leakage Current LOGIC-LEVEL THRESHOLDS I/O VL _ Input Voltage High Threshold I/O VL _ Input Voltage Low Threshold I/O VCC _ Input Voltage High Threshold I/O VCC _ Input Voltage Low Threshold EN, EN A/B Input Voltage High Threshold EN, EN A/B Input Voltage Low Threshold I/O VL _ Output Voltage High I/O VL _ Output Voltage Low I/O VCC _ Output Voltage High I/O VCC _ Output Voltage Low ESD PROTECTION I/O VCC _ Human Body Model, MAX3000E/MAX3001E 15 kV VIHL VILL VIHC VILC VIH VIL VOHL VOLL VOHC VOLC I/O VL _ source current = 20A, I/O VCC _ VCC - 0.4V I/O VL _ sink current = 20A, I/O VCC _ 0.4V I/O VCC_ source current = 20A, I/O VL _ VL - 0.4V I/O VCC sink current = 20A, I/O VL _ 0.4V VCC - 0.4 0.4 0.4 VL - 0.4 0.4 0.4 VL - 0.4 0.4 VCC - 0.4 VL - 0.4 V V V V V V V V V V EN A/B = 0, MAX3003 EN = 0, MAX3000E/MAX3001E/MAX3002/ MAX3004-MAX3012 TA = +25C MIN TYP 0.1 MAX 2 A 0.1 0.1 2 2 A UNITS I/O VCC _ Three-State Output Leakage Current 4.59 8.30 1 k A _______________________________________________________________________________________ 3 +1.2V to +5.5V, 15kV ESD-Protected, 0.1A, 35Mbps, 8-Channel Level Translators MAX3000E/MAX3001E/MAX3002-MAX3012 TIMING CHARACTERISTICS (VCC = +1.65V to +5.5V, VL = +1.2V to VCC, EN = VL (MAX3000E/MAX3001E/MAX3002/MAX3004-MAX3012), EN A/B = VL or 0 (MAX3003), TA = TMIN to TMAX. Typical values are at VCC = +1.65V, VL = +1.2V, and TA = +25C.) (Notes 1, 2) PARAMETER SYMBOL CONDITIONS RS = 50, CVCC = 50pF, MAX3000E, Figures 1a, 1b I/O VCC_ Rise Time tRVCC RS = 50, CVCC = 50pF, MAX3001E, Figures 1a, 1b RS = 50, CVCC = 50pF, MAX3002-MAX3012, Figures 1a, 1b RS = 50, CVCC = 50pF, MAX3000E, Figures 1a, 1b I/O VCC_ Fall Time tFVCC RS = 50, CVCC = 50pF, MAX3001E, Figures 1a, 1b RS = 50, CVCC = 50pF, MAX3002-MAX3012, Figures 1a, 1b RS = 50, CVL = 50pF, MAX3000E, Figures 2a, 2b I/O VL _ Rise Time tRVL RS = 50, CVL = 50pF, MAX3001E, Figures 2a, 2b RS = 50, CVL = 15pF, MAX3002-MAX3012, Figures 2a, 2b RS = 50, CVL = 50pF, MAX3000E, Figures 2a, 2b I/O VL _ Fall Time tFVL RS = 50, CVL = 50pF, MAX3001E, Figures 2a, 2b RS = 50, CVL = 15pF, MAX3002-MAX3012, Figures 2a, 2b RS = 50, CVCC = 50pF, MAX3000E, Figures 1a, 1b Propagation Delay (Driving I/O VL _) I/OVL-VCC RS = 50, CVCC = 50pF, MAX3001E, Figures 1a, 1b RS = 50, CVCC = 50pF, MAX3002-MAX3012, Figures 1a, 1b RS = 50, CVL = 50pF, MAX3000E, Figures 2a, 2b Propagation Delay (Driving I/O VCC_) I/OVCC-VL RS = 50, CVL = 50pF, MAX3001E, Figures 2a, 2b RS = 50, CVL = 15pF, MAX3002-MAX3012, Figures 2a, 2b 400 800 25 400 800 25 400 800 25 MIN 400 TYP 800 25 MAX 1200 50 15 1200 50 15 1200 50 15 1200 65 15 1000 50 20 1000 50 20 ns ns ns ns ns ns UNITS Note 1: All units are 100% production tested at TA = +25C. Limits over the operating temperature range are guaranteed by design and not production tested. Note 2: For normal operation, ensure that VL < (VCC + 0.3V). During power-up, VL > (VCC + 0.3V) does not damage the device. 4 _______________________________________________________________________________________ +1.2V to +5.5V, 15kV ESD-Protected, 0.1A, 35Mbps, 8-Channel Level Translators TIMING CHARACTERISTICS (continued) (VCC = +1.65V to +5.5V, VL = +1.2V to VCC, EN = VL (MAX3000E/MAX3001E/MAX3002/MAX3004-MAX3012), EN A/B = VL or 0 (MAX3003), TA = TMIN to TMAX. Typical values are at VCC = +1.65V, VL = +1.2V, and TA = +25C.) (Notes 1, 2) PARAMETER SYMBOL CONDITIONS RS = 50, CVCC = 50pF, CVL = 50pF, MAX3000E Channel-to-Channel Skew tSKEW RS = 50, CVCC = 50pF, CVL = 50pF, MAX3001E RS = 50, CVCC = 50pF, CVL = 15pF, MAX3002-MAX3012 RS = 50, CVCC = 50pF, CVL = 50pF, TA = +20C, MAX3000E (Note 3) Part-to-Part Skew tPPSKEW RS = 50, CVCC = 50pF, CVL = 50pF, TA = +20C, MAX3001E (Note 3) RS = 50, CVCC = 50pF, CVL = 15pF, TA = +20C, MAX3002-MAX3012 (Note 3) Propagation Delay from I/O VL _ to I/O VCC_ after EN Propagation Delay from I/O VCC_ to I/O VL _ after EN tEN-VCC CVCC = 50pF, MAX3000E/MAX3001E, MAX3002-MAX3012, Figure 3 CVL = 50pF, MAX3000E/MAX3001E/ MAX3002/MAX3004-MAX3012, Figure 4 CVL = 15pF, MAX3003, Figure 4 RS = 50, CVCC = 50pF, CVL = 50pF, MAX3000E Maximum Data Rate RS = 50, CVCC = 50pF, CVL = 50pF, MAX3001E RS = 50, CVCC = 50pF, CVL = 15pF, MAX3002-MAX3012 230 4 Mbps 20 2 2 kbps MIN TYP MAX 500 10 5 800 30 10 s ns ns UNITS MAX3000E/MAX3001E/MAX3002-MAX3012 tEN-VL s Note 3: VCC from device 1 must equal VCC of device 2; VL from device 1 must equal VL of device 2. _______________________________________________________________________________________ 5 +1.2V to +5.5V, 15kV ESD-Protected, 0.1A, 35Mbps, 8-Channel Level Translators MAX3000E/MAX3001E/MAX3002-MAX3012 TIMING CHARACTERISTICS--MAX3002-MAX3012 (VCC = +1.65V to +5.5V, VL = +1.2V to VCC, EN = VL (MAX3002/MAX3004-MAX3012), EN A/B = VL or 0 (MAX3003), TA = TMIN to TMAX.) (Notes 1, 2) PARAMETER +1.2V VL VCC +3.3V I/O VCC_ Rise Time I/O VCC_ Fall Time I/O VL _ Rise Time I/O VL _ Fall Time Propagation Delay Channel-to-Channel Skew Maximum Data Rate +2.5V VL VCC +3.3V I/O VCC_ Rise Time I/O VCC_ Fall Time I/O VL _ Rise Time I/O VL _ Fall Time Propagation Delay Channel-to-Channel Skew Maximum Data Rate +1.8V VL VCC +2.5V I/O VCC_ Rise Time I/O VCC_ Fall Time I/O VL _ Rise Time I/O VL _ Fall Time Propagation Delay Channel-to-Channel Skew Maximum Data Rate tRVCC tFVCC tRVL tFVL I/OVL-VCC I/OVCC-VL tSKEW Driving I/O VL _ Driving I/O VCC_ Each translator equally loaded 30 10 10 10 10 15 10 5 ns ns ns ns ns ns Mbps tRVCC tFVCC tRVL tFVL I/OVL-VCC I/OVCC-VL tSKEW Driving I/O VL _ Driving I/O VCC_ Each translator equally loaded 35 8.5 8.5 8.5 8.5 8.5 8.5 10 ns ns ns ns ns ns Mbps tRVCC tFVCC tRVL tFVL I/OVL-VCC I/OVCC-VL tSKEW Driving I/O VL _ Driving I/O VCC_ Each translator equally loaded 20 15 15 15 15 15 15 5 ns ns ns ns ns ns Mbps SYMBOL CONDITIONS MIN TYP MAX UNITS 6 _______________________________________________________________________________________ +1.2V to +5.5V, 15kV ESD-Protected, 0.1A, 35Mbps, 8-Channel Level Translators Typical Operating Characteristics (TA = +25C, unless otherwise noted.) VL SUPPLY CURRENT vs. SUPPLY VOLTAGE (DRIVING I/O VL, VL = 1.8V) MAX3000E/01E/02-12 toc01 MAX3000E/MAX3001E/MAX3002-MAX3012 VCC SUPPLY CURRENT vs. SUPPLY VOLTAGE (DRIVING I/O VL, VL = 1.8V) MAX3000E/01E/02-12 toc02 VL SUPPLY CURRENT vs. TEMPERATURE (DRIVING I/O VCC, VCC = 3.3V, VL = 1.8V) MAX3000E/01E/02-12 toc03 600 500 VL SUPPLY CURRENT (A) 400 300 200 100 0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 DATA RATE = 20Mbps 10,000 DATA RATE = 20Mbps VCC SUPPLY CURRENT (A) 8000 2000 VL SUPPLY CURRENT (A) 1500 DATA RATE = 20Mbps 1000 DATA RATE = 4Mbps 500 DATA RATE = 230kbps 6000 DATA RATE = 4Mbps 4000 DATA RATE = 230kbps 2000 DATA RATE = 4Mbps DATA RATE = 230kbps 5.5 0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 SUPPLY VOLTAGE (V) 0 -40 -15 10 35 60 85 TEMPERATURE (C) SUPPLY VOLTAGE (V) VCC SUPPLY CURRENT vs. TEMPERATURE (DRIVING I/O VCC, VCC = 3.3V, VL = 1.8V) MAX3000E/01E/02-12 toc04 VL SUPPLY CURRENT vs. CAPACITIVE LOAD ON I/O VCC (DRIVING I/O VL, VCC = 3.3V, VL = 1.8V) MAX3000E/01E/02-12 toc05 2500 100 VCC SUPPLY CURRENT (A) VL SUPPLY CURRENT (A) 2000 DATA RATE = 20Mbps 80 DATA RATE = 20Mbps 60 DATA RATE = 4Mbps 40 1500 DATA RATE = 4Mbps DATA RATE = 230kbps 500 1000 20 DATA RATE = 230kbps 0 -40 -15 10 35 60 85 TEMPERATURE (C) 0 10 20 30 40 50 60 70 80 90 100 CAPACITIVE LOAD (pF) VCC SUPPLY CURRENT vs. CAPACITIVE LOAD ON I/O VCC (DRIVING I/O VL, VCC = 3.3V, VL = 1.8V) 6000 VCC SUPPLY CURRENT (A) 5000 4000 3000 DATA RATE = 4Mbps 2000 1000 DATA RATE = 230kbps DATA RATE = 20Mbps MAX3000E/01E/02-12 toc06 MAX3000E RISE/FALL TIME vs. CAPACITIVE LOAD ON I/O VCC (DRIVING I/O VL, VCC = 3.3V, VL = 1.8V) MAX3000E/01E/02-12 toc07 7000 2000 RISE/FALL TIME (ns) 1500 tLH 1000 tHL 500 DATA RATE = 230kbps 0 10 20 30 40 50 60 70 80 90 100 CAPACITIVE LOAD (pF) 0 10 20 30 40 50 60 70 80 90 100 CAPACITIVE LOAD (pF) _______________________________________________________________________________________ 7 +1.2V to +5.5V, 15kV ESD-Protected, 0.1A, 35Mbps, 8-Channel Level Translators MAX3000E/MAX3001E/MAX3002-MAX3012 Typical Operating Characteristics (continued) (TA = +25C, unless otherwise noted.) MAX3001E RISE/FALL TIME vs. CAPACITIVE LOAD ON I/O VCC (DRIVING I/O VL, VCC = 3.3V, VL = 1.8V) MAX3000E/01E/02-12 toc08 MAX3002-MAX3012 RISE/FALL TIME vs. CAPACITIVE LOAD ON I/O VCC (DRIVING I/O VL, VCC = 3.3V, VL = 1.8V) MAX3000E/01E/02-12 toc09 60 50 RISE/FALL TIME (ns) tLH 40 30 tHL 20 10 DATA RATE = 4Mbps 0 10 20 30 40 50 60 70 80 8 RISE/FALL TIME (ns) 6 tLH 4 tHL 2 DATA RATE = 20Mbps 0 10 20 30 40 90 100 50 CAPACITIVE LOAD (pF) CAPACITIVE LOAD (pF) MAX3000E RISE/FALL TIME vs. CAPACITIVE LOAD ON I/O VL (DRIVING I/O VCC, VCC = 3.3V, VL = 1.8V) MAX3000E/01E/02-12 toc10 MAX3001E RISE/FALL TIME vs. CAPACITIVE LOAD ON I/O VL (DRIVING I/O VCC, VCC = 3.3V, VL = 1.8V) MAX3000E/01E/02-12 toc11 2000 tLH RISE/FALL TIME (ns) 1500 60 50 tHL RISE/FALL TIME (ns) 40 30 20 10 tLH 1000 tHL 500 DATA RATE = 230kbps 0 10 20 30 40 50 60 70 80 90 100 CAPACITIVE LOAD (pF) 0 10 20 30 40 50 60 70 80 90 100 CAPACITIVE LOAD (pF) DATA RATE = 4Mbps MAX3002-MAX3012 RISE/FALL TIME vs. CAPACITIVE LOAD ON I/O VL (DRIVING I/O VCC, VCC = 3.3V, VL = 1.8V) MAX3000E/01E/02-12 toc12 MAX3000E PROPAGATION DELAY vs. CAPACITIVE LOAD ON I/O VCC (DRIVING I/O VL, VCC = 3.3V, VL = 1.8V) MAX3000E/01E/02-12 toc13 4 500 PROPAGATION DELAY (ns) 400 RISE/FALL TIME (ns) 3 tPLH tHL 300 tPHL 200 2 1 tLH DATA RATE = 20Mbps 100 DATA RATE = 230kbps 0 30 10 20 30 40 50 60 70 80 90 100 0 10 15 20 25 CAPACITIVE LOAD (pF) CAPACITIVE LOAD (pF) 8 _______________________________________________________________________________________ +1.2V to +5.5V, 15kV ESD-Protected, 0.1A, 35Mbps, 8-Channel Level Translators Typical Operating Characteristics (continued) (TA = +25C, unless otherwise noted.) MAX3001E PROPAGATION DELAY vs. CAPACITIVE LOAD ON I/O VCC (DRIVING I/O VL, VCC = 3.3V, VL = 1.8V) MAX3000E/01E/02-12 toc14 MAX3000E/MAX3001E/MAX3002-MAX3012 MAX3002-MAX3012 PROPAGATION DELAY vs. CAPACITIVE LOAD ON I/O VCC (DRIVING I/O VL, VCC = 3.3V, VL = 1.8V) MAX3000E/01E/02-12 toc15 MAX3000E PROPAGATION DELAY vs. CAPACITIVE LOAD ON I/O VL (DRIVING I/O VCC, VCC = 3.3V, VL = 1.8V) tPHL 500 PROPAGATION DELAY (ns) 400 300 200 100 tPLH MAX3000E/01E/02-12 toc16 30 25 PROPAGATION DELAY (ns) 20 15 10 5 DATA RATE = 4Mbps 0 10 20 30 40 tPHL tPLH 12 10 PROPAGATION DELAY (ns) 8 6 4 2 DATA RATE = 20Mbps 0 tPHL 600 tPLH DATA RATE = 230kbps 0 30 10 20 30 40 50 60 70 80 90 100 50 10 15 20 25 CAPACITIVE LOAD (pF) CAPACITIVE LOAD (pF) CAPACITIVE LOAD (pF) MAX3001E PROPAGATION DELAY vs. CAPACITIVE LOAD ON I/O VL (DRIVING I/O VCC, VCC = 3.3V, VL = 1.8V) MAX3000E/01E/02-12 toc17 MAX3002-MAX3012 PROPAGATION DELAY vs. CAPACITIVE LOAD ON I/O VL (DRIVING I/O VCC, VCC = 3.3V, VL = 1.8V) MAX3000E/01E/02-12 toc18 15 5 PROPAGATION DELAY (ns) PROPAGATION DELAY (ns) 12 tPHL 9 4 tPHL 3 6 tPLH 3 DATA RATE = 4Mbps 0 10 20 30 40 50 CAPACITIVE LOAD (pF) 2 tPLH 1 DATA RATE = 20Mbps 0 10 15 20 25 30 CAPACITIVE LOAD (pF) MAX3000E RAIL-TO-RAIL DRIVING (DRIVING I/O VL, VCC = 3.3V, VL = 1.8V, CVCC = 50pF, DATA RATE = 230kbps) MAX3000E/01E/02-12 toc19 MAX3001E RAIL-TO-RAIL DRIVING (DRIVING I/O VL, VCC = 3.3V, VL = 1.8V, CVCC = 50pF, DATA RATE = 4Mbps) MAX3000E/01E/02-12 toc20 MAX3002-MAX3012 RAIL-TO-RAIL DRIVING (DRIVING I/O VL, VCC = 3.3V, VL = 1.8V, CVCC = 50pF, DATA RATE = 20Mbps) MAX3000E/01E/02-12 toc21 I/O VL_ 1V/div GND I/O VL_ 1V/div GND I/O VL_ 1V/div GND I/O VCC_ 2V/div GND 1s 40ns I/O VCC_ 2V/div GND I/O VCC_ 2V/div GND 10ns _______________________________________________________________________________________ 9 +1.2V to +5.5V, 15kV ESD-Protected, 0.1A, 35Mbps, 8-Channel Level Translators MAX3000E/MAX3001E/MAX3002-MAX3012 Pin Description MAX3000E/MAX3001E/MAX3002 PIN TSSOP 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 UCSP B1 A1 A2 B2 A3 B3 A4 B4 A5 B5 C5 D5 C4 D4 C3 D3 C2 D2 D1 C1 NAME I/O VL1 VL I/O VL2 I/O VL3 I/O VL4 I/O VL5 I/O VL6 I/O VL7 I/O VL8 EN GND I/O VCC8 I/O VCC7 I/O VCC6 I/O VCC5 I/O VCC4 I/O VCC3 I/O VCC2 VCC I/O VCC1 Input/Output 1, Referenced to VL Logic Input Voltage, +1.2V VL VCC. Bypass VL to GND with a 0.1F capacitor. Input/Output 2, Referenced to VL Input/Output 3, Referenced to VL Input/Output 4, Referenced to VL Input/Output 5, Referenced to VL Input/Output 6, Referenced to VL Input/Output 7, Referenced to VL Input/Output 8, Referenced to VL Enable Input. If EN is pulled low, I/O VCC1 to I/O VCC8 are in three-state, while I/O VL1 to I/O VL8 have internal 6k pulldown resistors. Drive EN high (VL) for normal operation. Ground Input/Output 8, Referenced to VCC Input/Output 7, Referenced to VCC Input/Output 6, Referenced to VCC Input/Output 5, Referenced to VCC Input/Output 4, Referenced to VCC Input/Output 3, Referenced to VCC Input/Output 2, Referenced to VCC VCC Input Voltage, +1.65V VCC +5.5V. Bypass VCC to GND with a 0.1F capacitor. Input/Output 1, Referenced to VCC FUNCTION 10 ______________________________________________________________________________________ +1.2V to +5.5V, 15kV ESD-Protected, 0.1A, 35Mbps, 8-Channel Level Translators Pin Description (continued) MAX3003 PIN TSSOP 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 UCSP B1 A1 A2 B2 A3 B3 A4 B4 A5 B5 C5 D5 C4 D4 C3 D3 C2 D2 D1 C1 NAME I/O VL1A VL I/O VL2A I/O VL3A I/O VL4A I/O VL1B I/O VL2B I/O VL3B I/O VL4B EN A/B GND I/O VCC4B I/O VCC3B I/O VCC2B I/O VCC1B I/O VCC4A I/O VCC3A I/O VCC2A VCC I/O VCC1A Input/Output 1A, Referenced to VL Logic Input Voltage, +1.2V VL VCC. Bypass VL to GND with a 0.1F capacitor. Input/Output 2A, Referenced to VL Input/Output 3A, Referenced to VL Input/Output 4A, Referenced to VL Input/Output 1B, Referenced to VL Input/Output 2B, Referenced to VL Input/Output 3B, Referenced to VL Input/Output 4B, Referenced to VL Enable Input. If EN A/B is pulled low, channels 1B through 4B are active, and channels 1A through 4A are in three-state. If EN A/B is driven high to VL, channels 1A through 4A are active, and channels 1B through 4B are in three-state. Ground Input/Output 4B, Referenced to VCC Input/Output 3B, Referenced to VCC Input/Output 2B, Referenced to VCC Input/Output 1B, Referenced to VCC Input/Output 4A, Referenced to VCC Input/Output 3A, Referenced to VCC Input/Output 2A, Referenced to VCC VCC Input Voltage, +1.65V VCC +5.5V. Bypass VCC to GND with a 0.1F capacitor. Input/Output 1A, Referenced to VCC FUNCTION MAX3000E/MAX3001E/MAX3002-MAX3012 ______________________________________________________________________________________ 11 +1.2V to +5.5V, 15kV ESD-Protected, 0.1A, 35Mbps, 8-Channel Level Translators MAX3000E/MAX3001E/MAX3002-MAX3012 Pin Description (continued) MAX3004-MAX3012 NAME VCC VL GND EN (MAX3004) EN (MAX3005) EN (MAX3006) EN (MAX3007) EN (MAX3008) EN (MAX3009) EN (MAX3010) EN (MAX3011) EN (MAX3012) IVL1-IVL8 OVL1-OVL8 IVCC1-IVCC8 OVCC1-OVCC8 FUNCTION (Note 1) VCC Input Voltage, +1.65V < VCC < +5.5V. Bypass VCC to GND with a 0.1F capacitor. Logic Input Voltage, +1.2V VL VCC. Bypass VL to GND with a 0.1F capacitor. Ground Enable Input. If EN is pulled low, OVCC1-OVCC8 are in three-state, while IVL1-IVL8 have 6k pulldown resistors. Drive EN high (VL) for normal operation. Enable Input. If EN is pulled low, IVCC1 and OVCC2-OVCC8 are in three-state, while OVL1 and IVL2-IVL8 have 6k pulldown resistors. Drive EN high (VL) for normal operation. Enable Input. If EN is pulled low, IVCC1, IVCC2, and OVCC3-OVCC8 are in three-state, while OVL1, OVL2, and IVL3-IVL8 have 6k pulldown resistors. Drive EN high (VL) for normal operation. Enable Input. If EN is pulled low, IVCC1, IVCC2, IVCC3, and OVCC4-OVCC8 are in three-state, while OVL1, OVL2, OVL3, and IVL4-IVL8 have 6k pulldown resistors. Drive EN high (VL) for normal operation. Enable Input. If EN is pulled low, IVCC1-IVCC4 and OVCC5-OVCC8 are in three-state, while OVL1-OVL4 and IVL5-IVL8 have 6k pulldown resistors. Drive EN high (VL) for normal operation. Enable Input. If EN is pulled low, IVCC1-IVCC5, OVCC6, OVCC7, and OVCC8 are in three-state, while OVL1-OVL5, IVL6, IVL7, and IVL8 have 6k pulldown resistors. Drive EN high (VL) for normal operation. Enable Input. If EN is pulled low, IVCC1-IVCC6, OVCC7, and OVCC8 are in three-state, while OVL1-OVL6, IVL7, and IVL8 have 6k pulldown resistors. Drive EN high (VL) for normal operation. Enable Input. If EN is pulled low, IVCC1-IVCC7 and OVCC8 are in three-state, while OVL1-OVL7 and IVL8 have 6k pulldown resistors. Drive EN high (VL) for normal operation. Enable Input. If EN is pulled low, IVCC1-IVCC8 are in three-state, while OVL1-OVL8 have 6k pulldown resistors. Drive EN high (VL) for normal operation. Inputs Referenced to VL, Numbers 1 to 8 Outputs Referenced to VL, Numbers 1 to 8 Inputs Referenced to VCC, Numbers 1 to 8 Outputs Referenced to VCC, Numbers 1 to 8 Note 1: For specific pin numbers, see the Pin Configurations. 12 ______________________________________________________________________________________ +1.2V to +5.5V, 15kV ESD-Protected, 0.1A, 35Mbps, 8-Channel Level Translators ______________________________________________Test Circuits/Timing Diagrams tRISE/FALL 3ns MAX3000E/MAX3001E/MAX3002-MAX3012 I/O VL VL MAX3000E/MAX3001E/ EN MAX3002/MAX3003 VCC 90% 50% 10% I/OVL-VCC I/OVL-VCC I/O VCC 90% 50% 10% I/O VL I/O VCC SOURCE RS CVCC tFVCC tRVCC Figure 1a. Driving I/O VL Figure 1b. Timing for Driving I/O VL tRISE/FALL 3ns I/O VCC VL MAX3000E/MAX3001E/ EN MAX3002/MAX3003 VCC 90% 50% 10% I/OVCC-VL I/OVCC-VL RS I/O VL CVL I/O VCC SOURCE I/O VL 90% 50% 10% tFVL tRVL Figure 2a. Driving I/O VCC Figure 2b. Timing for Driving I/O VCC ______________________________________________________________________________________ 13 +1.2V to +5.5V, 15kV ESD-Protected, 0.1A, 35Mbps, 8-Channel Level Translators MAX3000E/MAX3001E/MAX3002-MAX3012 _________________________________Test Circuits/Timing Diagrams (continued) EN SOURCE VL MAX3000E/MAX3001E/ MAX3002/MAX3003 EN t'EN-VCC 0 VL I/O VL 0 CVCC VCC I/O VCC 2 I/O VL VL I/O VCC VCC EN SOURCE VL MAX3000E/MAX3001E/ MAX3002/MAX3003 EN t"EN-VCC 0 VL I/O VL VL I/O VCC I/O VL 0 CVCC VCC I/O VCC 2 VCC 0 tEN-VCC IS WHICHEVER IS LARGER BETWEEN t'EN-VCC AND t"EN-VCC Figure 3. Propagation Delay from I/O VL to I/O VCC After EN EN SOURCE VL MAX3000E/MAX3001E/ MAX3002/MAX3003 EN t'EN-VL 0 VCC I/O VCC 0 VCC I/O VL VL 2 I/O VL CVL I/O VCC VL 0 EN SOURCE VL MAX3000E/MAX3001E/ MAX3002/MAX3003 EN t"EN-VL 0 VCC I/O VL CVL I/O VCC VCC I/O VCC 0 VL 0 I/O VL VL 2 tEN-VL IS WHICHEVER IS LARGER BETWEEN t'EN-VL AND t"EN-VL Figure 4. Propagation Delay from I/O VCC to I/O VL After EN 14 ______________________________________________________________________________________ +1.2V to +5.5V, 15kV ESD-Protected, 0.1A, 35Mbps, 8-Channel Level Translators Detailed Description The MAX3000E/MAX3001E/MAX3002-MAX3012 logiclevel translators provide the level shifting necessary to allow data transfer in a multivoltage system. Externally applied voltages, VCC and VL, set the logic levels on either side of the device. Logic signals present on the VL side of the device appear as a higher voltage logic signal on the VCC side of the device, and vice-versa. The MAX3000E/MAX3001E/MAX3002/MAX3003 are bidirectional level translators allowing data translation in either direction (VL VCC) on any single data line. The MAX3004-MAX3012 unidirectional level translators level shift data in one direction (VL VCC or VCC VL) on any single data line. The MAX3000E/MAX3001E/ MAX3002-MAX3012 accept VL from +1.2V to +5.5V. All devices have VCC ranging from +1.65V to +5.5V, making them ideal for data transfer between low-voltage ASICs/PLDs and higher voltage systems. The MAX3000E/MAX3001E/MAX3002/MAX3004- MAX3012 feature an output enable mode that reduces VCC supply current to less than 2A, and VL supply current to less than 2A when in shutdown. The MAX3000E/MAX3001E have 15kV ESD protection on the VCC side for greater protection in applications that route signals externally. The MAX3000E operates at a guaranteed data rate of 230kbps; the MAX3001E operates at a guaranteed data rate of 4Mbps and the MAX3002-MAX3012 are guaranteed with a data rate of 20Mbps of operation over the entire specified operating voltage range. For proper operation, ensure that +1.65V VCC +5.5V, +1.2V VL +5.5V, and VL VCC. During power-up sequencing, VL VCC does not damage the device. During power-supply sequencing, when VCC is floating and VL is powering up, up to 10mA current can be sourced to each load on the VL side, yet the device does not latch up. The maximum data rate also depends heavily on the load capacitance (see the Typical Operating Characteristics), output impedance of the driver, and the operational voltage range (see the Timing Characteristics). Then, a short pulse is generated during which the accelerator output stages become active and charge/discharge the capacitances at the I/Os. Due to its bidirectional nature, both input stages become active during the one-shot pulse. This can lead to some current feeding into the external source that is driving the translator. However, this behavior helps to speed up the transition on the driven side. For proper operation, the driver has to meet the following conditions: 50 maximum output impedance and 20mA minimum output current (for 20Mbps versions), 400 maximum output impedance and 4mA minimum output current (for 4Mbps versions), 1k maximum output impedance and 1mA minimum output current (for 230kbps versions). Figure 6 shows a typical input current vs. input voltage. MAX3000E/MAX3001E/MAX3002-MAX3012 Enable Output Mode (EN, EN A/B) The MAX3000E/MAX3001E/MAX3002 and the MAX3004- MAX3012 feature an EN input, and the MAX3003 has an EN A/B input. Pull EN low to set the MAX3000E/ MAX3001E/MAX3002/MAX3004-MAX3012s' I/O VCC1 through I/O VCC8 in three-state output mode, while I/O VL1 through I/O VL8 have internal 6k pulldown resistors. Drive EN to logic high (VL) for normal operation. For the MAX3003, pull EN A/B low to place channels 1B through 4B in active mode, while channels 1A through 4A are in three-state mode. Drive EN A/B to logic high (VL) to enable channels 1A through 4A, while channels 1B through 4B remain in three-state mode. Level Translation 15kV ESD Protection As with all Maxim devices, ESD-protection structures are incorporated on all pins to protect against electrostatic discharges encountered during handling and assembly. The I/O V CC lines have extra protection against static discharge. Maxim's engineers have developed state-of-the-art structures to protect these pins against ESD of 15kV without damage. The ESD structures withstand high ESD in all states: normal operation, three-state output mode, and powered down. After an ESD event, Maxim's E versions keep working without latchup, whereas competing products can latch and must be powered down to remove latchup. ESD protection can be tested in various ways. The I/O VCC lines of the MAX3000E/MAX3001E are characterized for protection to 15kV using the Human Body Model. Input Driver Requirements The MAX3001E/MAX3002-MAX3012 architecture is based on a one-shot accelerator output stage. See Figure 5. Accelerator output stages are always in threestate except when there is a transition on any of the translators on the input side, either I/O VL or I/O VCC. ______________________________________________________________________________________ 15 +1.2V to +5.5V, 15kV ESD-Protected, 0.1A, 35Mbps, 8-Channel Level Translators MAX3000E/MAX3001E/MAX3002-MAX3012 VL VCC IIN P ONE-SHOT IVL 6k OVCC VTH_IN/6k N ONE-SHOT 0 VIN VTH_IN VS -(VS - VTH_IN)/6k 6k TYPICAL DRIVING ONE CHANNEL ON VL SIDE WHERE VS = VCC OR VL Figure 6. Typical IIN vs. VIN VL MAX3001E/MAX3002/MAX3003 VCC Machine Model P ONE-SHOT OVL 6k IVCC N ONE-SHOT The Machine Model for ESD tests all pins using a 200pF storage capacitor and zero discharge resistance. Its objective is to emulate the stress caused by contact that occurs with handling and assembly during manufacturing. Of course, all pins require this protection during manufacturing, not just inputs and outputs. Therefore, after PC board assembly, the Machine Model is less relevant to I/O ports. Applications Information 6k Power-Supply Decoupling To reduce ripple and the chance of transmitting incorrect data, bypass VL and VCC to ground with a 0.1F capacitor. To ensure full 15kV ESD protection, bypass VCC to ground with a 1F capacitor. Place all capacitors as close to the power-supply inputs as possible. TYPICAL DRIVING ONE CHANNEL ON VCC SIDE Figure 5. MAX3001E/MAX3002/MAX3003 Simplified Functional Diagram (1 I/O Line) I2C Level Translation The MAX3000E/MAX3001E/MAX3002-MAX3012 level shift the data present on the I/O line between +1.2V and +5.5V, making them ideal for level translation between a low-voltage ASIC and an I2C device. A typical application is interfacing a low-voltage microprocessor to a 3V or 5V D/A converter, such as the MAX517. ESD Test Conditions ESD performance depends on a variety of conditions. Contact Maxim for a reliability report that documents test setup, test methodology, and test results. Human Body Model Figure 7a shows the Human Body Model and Figure 7b shows the current waveform it generates when discharged into a low impedance. This model consists of a 100pF capacitor charged to the ESD voltage of interest, which is then discharged into the test device through a 1.5k resistor. Unidirectional vs. Bidirectional Level Translator The MAX3000E/MAX3001E/MAX3002/MAX3003 can also be used to translate signals without inversion. These devices provide the smallest solution (UCSP package) for unidirectional level translation without inversion. 16 ______________________________________________________________________________________ +1.2V to +5.5V, 15kV ESD-Protected, 0.1A, 35Mbps, 8-Channel Level Translators MAX3000E/MAX3001E/MAX3002-MAX3012 RC 1M CHARGE-CURRENTLIMIT RESISTOR HIGHVOLTAGE DC SOURCE CS 100pF RD 1500 DISCHARGE RESISTANCE STORAGE CAPACITOR DEVICE UNDER TEST IP 100% 90% AMPERES 36.8% 10% 0 0 tRL Ir PEAK-TO-PEAK RINGING (NOT DRAWN TO SCALE) TIME tDL CURRENT WAVEFORM Figure 7a. Human Body ESD Test Model Figure 7b. Human Body Current Waveform Selector Guide PART MAX3000E MAX3001E MAX3002 MAX3003 MAX3004 MAX3005 MAX3006 MAX3007 MAX3008 MAX3009 MAX3010 MAX3011 MAX3012 EN -- EN A/B -- -- -- -- -- -- -- -- -- -- -- -- Tx/Rx* 8/8 8/8 8/8 8/8 8/0 7/1 6/2 5/3 4/4 3/5 2/6 1/7 0/8 DATA RATE 230kbps 4Mbps ** ** ** ** ** ** ** ** ** ** ** ESD PROTECTION (kV) 15 15 2 2 2 2 2 2 2 2 2 2 2 *Tx = VL VCC; Rx = VCC VL **See Table 1. Table 1. Data Rate VL VCC (V) 1.2 5.5 1.2 3.3 2.5 3.3 1.8 2.5 1.2 2.5 1.2 1.8 MAX3002-MAX3012 GUARANTEED DATA RATE (Mbps) 40 20 35 30 20 20 ______________________________________________________________________________________ 17 +1.2V to +5.5V, 15kV ESD-Protected, 0.1A, 35Mbps, 8-Channel Level Translators MAX3000E/MAX3001E/MAX3002-MAX3012 MAX3000E/MAX3001E/MAX3002 Functional Diagram VL VCC EN MAX3000E/ MAX3001E/MAX3002 I/O VL1 I/O VCC1 I/O VL2 I/O VCC2 I/O VL3 I/O VCC3 I/O VL4 I/O VCC4 I/O VL5 I/O VCC5 I/O VL6 I/O VCC6 I/O VL7 I/O VCC7 I/O VL8 I/O VCC8 GND 18 ______________________________________________________________________________________ +1.2V to +5.5V, 15kV ESD-Protected, 0.1A, 35Mbps, 8-Channel Level Translators MAX3003 Functional Diagram VL VCC MAX3000E/MAX3001E/MAX3002-MAX3012 EN A/B MAX3003 I/O VL1A I/O VCC1A I/O VL2A I/O VCC2A I/O VL3A I/O VCC3A I/O VL4A I/O VCC4A I/O VL1B I/O VCC1B I/O VL2B I/O VCC2B I/O VL3B I/O VCC3B I/O VL4B I/O VCC4B GND ______________________________________________________________________________________ 19 +1.2V to +5.5V, 15kV ESD-Protected, 0.1A, 35Mbps, 8-Channel Level Translators MAX3000E/MAX3001E/MAX3002-MAX3012 Pin Configurations MAX3000E/MAX3001E/MAX3002 MAX3004-MAX3012 1 D VCC C I/O VCC1 B I/O VL1 A VL I/O VL2 I/O VL4 I/O VL6 I/O VL8 I/O VL3 I/O VL5 I/O VL7 EN A VL I/O VL2A I/O VCC3 I/O VCC5 I/O VCC7 GND B I/O VL1A I/O VL3A I/O VCC2 I/O VCC4 I/O VCC6 I/O VCC8 C I/O VCC1A I/O VCC3A 2 3 4 5 D VCC I/O VCC2A 1 2 MAX3003 3 4 5 I/O VCC4A I/O VCC2B I/O VCC4B I/O VCC1B I/O VCC3B GND I/O VL1B I/O VL3B EN A/B I/O VL4A I/O VL2B I/O VL4B 20 UCSP (Bottom View) 20 UCSP (Bottom View) MAX3000E/MAX3001E/ MAX3002 TOP VIEW I/O VL1 1 VL 2 I/O VL2 3 I/O VL3 4 I/O VL4 5 I/O VL5 6 I/O VL6 7 I/O VL7 8 I/O VL8 9 EN 10 20 I/O VCC1 19 VCC 18 I/O VCC2 17 I/O VCC3 16 I/O VCC4 15 I/O VCC5 14 I/O VCC6 13 I/O VCC7 12 I/O VCC8 11 GND I/O VL1A 1 VL 2 I/O VL2A 3 I/O VL3A 4 I/O VL4A 5 I/O VL1B 6 I/O VL2B 7 I/O VL3B 8 I/O VL4B 9 EN A/B 10 MAX3003 20 I/O VCC1A 19 VCC 18 I/O VCC2A 17 I/O VCC3A 16 I/O VCC4A 15 I/O VCC1B 14 I/O VCC2B 13 I/O VCC3B 12 I/O VCC4B 11 GND TSSOP TSSOP 20 ______________________________________________________________________________________ +1.2V to +5.5V, 15kV ESD-Protected, 0.1A, 35Mbps, 8-Channel Level Translators Pin Configurations (continued) TOP VIEW MAX3004 I VL1 1 VL 2 I VL2 3 I VL3 4 I VL4 5 I VL5 6 I VL6 7 I VL7 8 I VL8 9 EN 10 20 O VCC1 19 VCC 18 O VCC2 17 O VCC3 16 O VCC4 15 O VCC5 14 O VCC6 13 O VCC7 12 O VCC8 11 GND O V L1 1 VL 2 I VL2 3 I VL3 4 I VL4 5 I VL5 6 I VL6 7 I VL7 8 I VL8 9 EN 10 MAX3000E/MAX3001E/MAX3002-MAX3012 MAX3005 20 I VCC1 19 VCC 18 O VCC2 17 O VCC3 16 O VCC4 15 O VCC5 14 O VCC6 13 O VCC7 12 O VCC8 11 GND O V L1 1 VL 2 O VL2 3 I VL3 4 I VL4 5 I VL5 6 I VL6 7 I VL7 8 I VL8 9 EN 10 MAX3006 20 I VCC1 19 VCC 18 I VCC2 17 O VCC3 16 O VCC4 15 O VCC5 14 O VCC6 13 O VCC7 12 O VCC8 11 GND TSSOP MAX3007 O VL1 1 VL 2 O VL2 3 O VL3 4 I VL4 5 I VL5 6 I VL6 7 I VL7 8 I VL8 9 EN 10 20 I VCC1 19 VCC 18 I VCC2 17 I VCC3 16 O VCC4 15 O VCC5 14 O VCC6 13 O VCC7 12 O VCC8 11 GND O V L1 1 VL 2 O VL2 3 O VL3 4 O VL4 5 I VL5 6 I VL6 7 I VL7 8 I VL8 9 EN 10 TSSOP MAX3008 20 I VCC1 19 VCC 18 I VCC2 17 I VCC3 16 I VCC4 15 O VCC5 14 O VCC6 13 O VCC7 12 O VCC8 11 GND O V L1 1 VL 2 O VL2 3 O VL3 4 O VL4 5 O VL5 6 I VL6 7 I VL7 8 I VL8 9 EN 10 TSSOP MAX3009 20 I VCC1 19 VCC 18 I VCC2 17 I VCC3 16 I VCC4 15 I VCC5 14 O VCC6 13 O VCC7 12 O VCC8 11 GND TSSOP TSSOP TSSOP ______________________________________________________________________________________ 21 +1.2V to +5.5V, 15kV ESD-Protected, 0.1A, 35Mbps, 8-Channel Level Translators MAX3000E/MAX3001E/MAX3002-MAX3012 Pin Configurations (continued) TOP VIEW MAX3010 O VL1 1 VL 2 O VL2 3 O VL3 4 O VL4 5 O VL5 6 O VL6 7 I VL7 8 I VL8 9 EN 10 20 I VCC1 19 VCC 18 I VCC2 17 I VCC3 16 I VCC4 15 I VCC5 14 I VCC6 13 O VCC7 12 O VCC8 11 GND O VL1 1 VL 2 O VL2 3 O VL3 4 O VL4 5 O VL5 6 O VL6 7 O VL7 8 I VL8 9 EN 10 MAX3011 20 I VCC1 19 VCC 18 I VCC2 17 I VCC3 16 I VCC4 15 I VCC5 14 I VCC6 13 I VCC7 12 O VCC8 11 GND O VL1 1 VL 2 O VL2 3 O VL3 4 O VL4 5 O VL5 6 O VL6 7 O VL7 8 O VL8 9 EN 10 MAX3012 20 I VCC1 19 VCC 18 I VCC2 17 I VCC3 16 I VCC4 15 I VCC5 14 I VCC6 13 I VCC7 12 I VCC8 11 GND TSSOP TSSOP TSSOP Ordering Information (continued) PART MAX3001EEUP MAX3001EEBP-T* MAX3001EAUP MAX3002EUP MAX3002EBP-T* MAX3003EUP MAX3003EBP-T* MAX3004EUP* MAX3004EBP-T* MAX3005EUP* MAX3005EBP-T* MAX3006EUP* MAX3006EBP-T* TEMP RANGE -40C to +85C -40C to +85C -40C to +125C -40C to +85C -40C to +85C -40C to +85C -40C to +85C -40C to +85C -40C to +85C -40C to +85C -40C to +85C -40C to +85C -40C to +85C PIN-PACKAGE 20 TSSOP 4 x 5 UCSP 20 TSSOP 20 TSSOP 4 x 5 UCSP 20 TSSOP 4 x 5 UCSP 20 TSSOP 4 x 5 UCSP 20 TSSOP 4 x 5 UCSP 20 TSSOP 4 x 5 UCSP PART MAX3007EUP* MAX3007EBP-T* MAX3008EUP* MAX3008EBP-T* MAX3009EUP* MAX3009EBP-T* MAX3010EUP* MAX3010EBP-T* MAX3011EUP* MAX3011EBP-T* MAX3012EUP* MAX3012EBP-T* TEMP RANGE -40C to +85C -40C to +85C -40C to +85C -40C to +85C -40C to +85C -40C to +85C -40C to +85C -40C to +85C -40C to +85C -40C to +85C -40C to +85C -40C to +85C PIN-PACKAGE 20 TSSOP 4 x 5 UCSP 20 TSSOP 4 x 5 UCSP 20 TSSOP 4 x 5 UCSP 20 TSSOP 4 x 5 UCSP 20 TSSOP 4 x 5 UCSP 20 TSSOP 4 x 5 UCSP *Future product--contact factory for availability. Chip Information TRANSISTOR COUNT: 1184 PROCESS: BiCMOS 22 ______________________________________________________________________________________ +1.2V to +5.5V, 15kV ESD-Protected, 0.1A, 35Mbps, 8-Channel Level Translators Package Information (The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information, go to www.maxim-ic.com/packages.) 5x4 UCSP.EPS MAX3000E/MAX3001E/MAX3002-MAX3012 ______________________________________________________________________________________ 23 +1.2V to +5.5V, 15kV ESD-Protected, 0.1A, 35Mbps, 8-Channel Level Translators MAX3000E/MAX3001E/MAX3002-MAX3012 Package Information (continued) (The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information, go to www.maxim-ic.com/packages.) TSSOP4.40mm.EPS Maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are implied. Maxim reserves the right to change the circuitry and specifications without notice at any time. 24 ____________________Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600 (c) 2002 Maxim Integrated Products Printed USA is a registered trademark of Maxim Integrated Products. |
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