MAX5452EUB 10 µmax 50 U10C-4 MAX5451EUD 14 TSSOP 10 U14-1
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1 9-997; Rev 2; 2/06 Dual, 256-Tap, Up/Down Interface, General Description The are a family of dual digital potentiometers that perform the same function as a mechanical potentiometer or variable resistor. The MAX545/MAX5453/MAX5455 have two 3-terminal potentiometers and the MAX5450/MAX5452/MAX5454 have two 2-terminal variable resistors. The MAX5450 MAX5455 operate from a +2.7V to +5.5V single-supply voltage and use an ultra-low supply current of 0.µA. These devices consist of two fixed resistors each with 256 digitally-controlled wiper contacts. The convenient power-on reset (POR) sets the wiper to midscale position at power-up and the easy-to-use up/down interface allows glitchless switching between resistor taps. Six inputs control the 4-pin MAX545/ MAX5453/MAX5455 potentiometers. Four inputs control the 0-pin MAX5450/MAX5452/MAX5454 variable resistors. The are ideal for applications requiring digitally-controlled resistors. Three resistance values are available: 0kΩ, 50kΩ, and 00kΩ. An endto-end resistor temperature coefficient of 35ppm/ C and a ratiometric temperature coefficient of 5ppm/ C make the excellent choices for adjustable gain circuit requiring low-temperature drift The are available in 0-pin µmax and 4-pin TSSOP packages. Each device is guaranteed over the extended industrial temperature range (-40 C to +85 C). Applications Mechanical Potentiometer Replacement Low-Drift Programmable-Gain Amplifier (PGA) Volume Control LCD Screen Adjustment Adjustable Voltage References Adjustable Linear Regulators Programmable Filters, Delays, Time Constants Impedance Matching µmax is a registered trademark of Maxim Integrated Products, Inc. Features Small-Footprint Packages 0-Pin µmax (MAX5450/MAX5452/MAX5454) 4-Pin TSSOP (MAX545/MAX5453/MAX5455) 256-Tap Positions Independent Up/Down Potentiometer Controls (MAX545/MAX5453/MAX5455) Ultra-Low 0.µA Supply Current +2.7V to +5.5V Single-Supply Operation Low 35ppm/ C End-to-End Temperature Coefficient Power-On Reset Sets Wiper to Midscale (Position 27) Glitchless Switching Between the Resistor Taps 0kΩ, 50kΩ, 00kΩ Resistance Values TOP VIEW CS U/D 2 V DD 3 W 4 L 5 MAX5450 MAX5452 MAX5454 µmax Ordering Information PART PIN-PACKAGE R (kω) PKG CODE MAX5450EUB 0 µmax 0 U0C-4 MAX545EUD 4 TSSOP 0 U4- MAX5452EUB 0 µmax 50 U0C-4 MAX5453EUD 4 TSSOP 50 U4- MAX5454EUB 0 µmax 00 U0C-4 MAX5455EUD 4 TSSOP 00 U4- Note: All devices specified over the -40 C to +85 C operating range. 0 CS2 9 INC 8 GND 7 W2 6 L2 Pin Configurations CS U/D 2 U/D2 3 V DD 4 W 5 H 6 L 7 MAX545 MAX5453 MAX CS2 3 INC 2 INC2 GND 0 W2 9 H2 8 L2 TSSOP Maxim Integrated Products For pricing, delivery, and ordering information, please contact Maxim/Dallas Direct! at , or visit Maxim s website at
2 ABSOLUTE MAXIMUM RATINGS V DD to GND V to +6V CS_, INC_, and U/D_ to GND V to +6V H_, L_, W_ to GND V to (V DD +0.3V) Maximum Continuous Current into H_, L_, and W_...±mA Continuous Power Dissipation (T A = +70 C) 0-Pin µmax (derate 6.94mW/ C above +70 C)...555mW 4-Pin TSSOP (derate 9.mW/ C above +70 C)...727mW Operating Temperature Range C to +85 C Junction Temperature C Storage Temperature Range C to +50 C Lead Temperature (soldering, 0s) C 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 (V DD = +2.7V to +5.5V, V H = V DD, V L = 0; T A = T MIN to T MAX, unless otherwise noted. Typical values are at V DD = +5V, T A = +25 C, unless otherwise noted.) PARAMETER SYM B O L CONDITIONS MIN TYP MAX UNITS DC PERFORMANCE (Voltage-Divider Mode, MAX545/MAX5453/MAX5455 Only) Resolution N 8 Bits Integral Nonlinearity (Notes and 2) Differential Nonlinearity (Notes and 2) INL DNL V DD = +5V ± V DD = +3V ± V DD = +5V ± V DD = +3V ± End-to-End Resistor Tempco TC R 35 ppm/ C Ratiometric Resistor Tempco 5 ppm/ C Full-Scale Error Zero-Scale Error DC PERFORMANCE (Variable Resistor Mode) MAX545-8 MAX MAX MAX MAX MAX Resolution N 8 Bits Integral Nonlinearity (Notes and 3) Differential Nonlinearity (Notes and 3) INL DNL DC PERFORMANCE (Resistor Characteristics) V DD = +5V V DD = +3V MAX5450, MAX545 ±3 MAX5452 MAX5455 ± MAX5450, MAX545 ±4.5 MAX5452 MAX5455 ±2 V DD = +5V ± V DD = +3V ± V DD = +5V, MAX545/MAX5453/MAX Wiper Resistance (Note 4) R W V DD = +3V, MAX545/MAX5453/MAX LSB LSB LSB LSB LSB LSB Ω Wiper Capacitance C W 0 pf MAX5450, MAX End-To-End Resistance R HL MAX5452, MAX MAX5454, MAX kω 2
3 ELECTRICAL CHARACTERISTICS (continued) (V DD = +2.7V to +5.5V, V H = V DD, V L = 0; T A = T MIN to T MAX, unless otherwise noted. Typical values are at V DD = +5V, T A = +25 C, unless otherwise noted.) PARAMETER SYM B O L CONDITIONS MIN TYP MAX UNITS DIGITAL INPUTS (Note 5) Input High Voltage V IH 0.7 x V DD V Input Low Voltage V IL 0.3 x V DD V Input Leakage Current ±.0 µa Input Capacitance 5 pf TIMING CHARACTERISTICS (Analog) Wiper-Settling Time (Note 6) TIMING CHARACTERISTICS (Digital, Note 7, Figure ) MAX t IW MAX MAX Maximum INC Frequency f MAX 7 MHz CS to INC Setup Time t CI 25 ns CS to INC Hold Time t IC 0 ns INC Low Period t IL 25 ns INC High Period t IH 25 ns U/D to INC Setup t DI 50 ns U/D to INC Hold t ID 0 ns POWER SUPPLIES Supply Voltage V DD V CS = INC = U/D = V V DD = +5V Supply Current I DD DD or GND V D D = + 2.7V 0. µs µa Note : Linearity is defined in terms of the H_ to L_ code-dependent resistance. Note 2: The DNL and INL are measured with the potentiometer configured as a voltage divider with H_ = V DD and L_ = GND. The wiper terminal is unloaded and measured with an ideal voltmeter. Note 3: The DNL and INL are measured with the potentiometer configured as a variable resistor. For the 3-terminal potentiometers (MAX545/MAX5453/MAX5455), H_ is unconnected and L_ = GND. For the 2-terminal potentiometers (MAX5450/MAX5452/MAX5454), L_ = GND. At V DD = +5V, the wiper terminal is driven with a source current of 400µA for the 0kΩ configuration, 80µA for the 50kΩ configuration, and 40µA for the 00kΩ configuration. At V DD = +3V, 200µA/40µA/20µA for 0kΩ/50kΩ/00kΩ configuration, respectively. Note 4: The wiper resistance is the worst value measured by injecting the currents given in Note 3 into W_ with L_ = GND. R W _ = (V W _ - V H _) / I W _. Note 5: Device draws higher supply current when digital inputs are driven with voltages between (V DD - 0.5V) and (GND + 0.5V). (See Supply Current vs. Digital Input Voltage in the Typical Operating Characteristics.) Note 6: Wiper-Settling Time is the worst case 0% to 50% rise-time measured between consecutive wiper positions. H_ = V DD, L_ = GND, and the wiper terminal is unloaded and measured with a 0pF oscilloscope probe (see Tap-To-Tap Switching Transient in the Typical Operating Characteristics). Note 7: Digital timing is guaranteed by design. 3
4 (V DD = +5V, T A = +25 C, unless otherwise noted.) WIPER RESISTANCE (Ω) WIPER RESISTANCE vs. WIPER VOLTAGE (0kΩ) V DD = +3V V DD = +5V WIPER VOLTAGE (V) MAX5450/5 toc0 WIPER RESISTANCE (Ω) WIPER RESISTANCE vs. WIPER VOLTAGE (50kΩ) WIPER VOLTAGE (V) Typical Operating Characteristics V DD = +3V V DD = +5V MAX5450/5 toc02 WIPER RESISTANCE (Ω) WIPER RESISTANCE vs. WIPER VOLTAGE (00kΩ) V DD = +3V WIPER VOLTAGE (V) V DD = +5V MAX5450/5 toc03 W-TO-L RESISTANCE (kω) WIPER RESISTANCE vs. (0kΩ) MAX5450/5 toc04 W-TO-L RESISTANCE (kω) WIPER RESISTANCE vs. (50kΩ) MAX5450/5 toc05 W-TO-L RESISTANCE (kω) WIPER RESISTANCE vs. (00kΩ) MAX5450/5 toc VARIABLE RESISTOR DNL vs. (0kΩ) MAX5450/5 toc VARIABLE RESISTOR INL vs. (MAX545) MAX5450/5 toc VARIABLE RESISTOR DNL vs. (50kΩ) MAX5450/5 toc09 DNL (LSB) INL (LSB) DNL (LSB)
5 (V DD = +5V, T A = +25 C, unless otherwise noted.) INL (LSB) VARIABLE RESISTOR INL vs. (MAX5453) MAX5450/5 toc0 DNL (LSB) Typical Operating Characteristics (continued) VARIABLE RESISTOR DNL vs. (00kΩ) MAX5450/5 toc INL (LSB) VARIABLE RESISTOR INL vs. (MAX5455) MAX5450/5 toc VOLTAGE-DIVIDER DNL vs. (0kΩ) MAX5450/5 toc3 0.5 VOLTAGE-DIVIDER INL vs. (0kΩ) MAX5450/5 toc VOLTAGE-DIVIDER DNL vs. (50kΩ) MAX5450/5 toc5 DNL (LSB) INL (LSB) - DNL (LSB) VOLTAGE-DIVIDER INL vs. (50kΩ) MAX5450/5 toc VOLTAGE-DIVIDER DNL vs. (00kΩ) MAX5450/5 toc7 0.5 VOLTAGE-DIVIDER INL vs. (00kΩ) MAX5450/5 toc8 INL (LSB) - DNL (LSB) INL (LSB)
6 (V DD = +5V, T A = +25 C, unless otherwise noted.) IDD (µa) SUPPLY CURRENT vs. SUPPLY VOLTAGE DIGITAL INPUTS + V DD V DD (V) MAX5450/5 toc9 IDD (ma) Typical Operating Characteristics (continued) SUPPLY CURRENT vs. DIGITAL INPUT VOLTAGE V DD = 3V DIGITAL INPUT VOLTAGE (V) V DD = 5V MAX5450/5 toc20 SUPPLY CURRENT (µa) SUPPLY CURRENT vs. TEMPERATURE V DD = +3V V DD = +5V TEMPERATURE ( C) MAX5450/5 toc2 END-TO-END RESISTANCE % CHANGE END-TO-END RESISTANCE % CHANGE vs. TEMPERATURE 50kΩ 00kΩ 0kΩ 50kΩ 0kΩ 00kΩ TEMPERATURE ( C) MAX5450/5 toc22 W 0mV/div INC_ 5V/div TAP-TO-TAP SWITCHING TRANSIENT MAX5450/5 toc23 MAX5455 MAX5453 MAX545 µs/div 6
7 MAX545 MAX5453 MAX5455 PIN MAX5450 MAX5452 MAX5454 NAME CS 2 U/D 2 U/D 3 U/D2 4 3 V DD Power Supply 5 4 W Wiper Terminal of Resistor 6 H High Terminal of Resistor 7 5 L Low Terminal of Resistor 8 6 L2 Low Terminal of Resistor 2 9 H2 High Terminal of Resistor W2 Wiper Terminal of Resistor 2 8 GND Ground 9 INC FUNCTION Pin Description Chip-Select Input of Resistor. Drive low to change wiper position W through INC and U/D. Up/Down Control Input. With U/D low, a high-to-low INC transition decrements wiper position. With U/D high, a high-to-low INC transition increments wiper position. Up/Down Control Input of Resistor. With U/D low, a high-to-low INC transition decrements wiper position W. With U/D high, a high-to-low INC transition increments wiper position W. Up/Down Control Input of Resistor 2. With U/D2 low, a high-to-low INC2 transition decrements wiper position W2. With U/D2 high, a high-to-low INC2 transition increments wiper position W2. Wiper Increment Control Input. With CS low, a high-to-low transition increments (U/D high) or decrements (U/D low) wiper position W. This applies similarly for CS2 and W2. 2 INC2 3 INC 4 0 CS2 Wiper Increment Control Input. With CS2 low, a high-to-low transition increments (U/D2 high) or decrements (U/D2 low) wiper position W2. Wiper Increment Control Input. With CS low, a high-to-low transition increments (U/D high) or decrements (U/D low) wiper position W. Chip-Select Input of Resistor 2. Drive low to change wiper position W2 through INC and U/D. 7
8 CS_ INC_ U/D_ W_ Figure. Digital Interface and Timing diagram t DI t CI t IL t ID t IW t IH t IC Detailed Description The contain two independent resistor arrays each with 255-resistive elements tap points are accessible to the wiper along the resistor arrays between H and L (Figure 2). Power-on reset circuitry sets the wiper to midscale (position 27) at power-up. Logic inputs CS, U/D, and INC determine the wiper position of the. With CS low and U/D high, a high-to-low (falling edge) transition on INC, increments the internal counter, which increases the resistance between W and L. When both CS and U/D are low, a high-to-low INC transition decrements the internal counter, decreasing the resistance between W and L (Figure ). The wiper performs a make-beforebreak transition ensuring that there is never an open circuit during a transition from one resistor tap to another. When the wiper is at either end (max/min) of the resistor array, additional transitions in the direction of the endpoint will not change the counter value (the counter will not wrap around). The MAX5450/MAX5452/MAX5454 are similar to the MAX545/MAX5453/MAX5455 except for internal connections. The MAX5450/MAX5452/MAX5454 internally connect INC to INC2, U/D to U/D2, W to H, and W2 to H2 (Figures 3 and 4). The internal connections configure the MAX5450/MAX5452/MAX5454 to be variable resistors. Applications Information The are ideal for adjustable voltage or adjustable gain circuits where accurate adjustable resistances are required. Adjustable Current to Voltage Converter Figure 5 shows the MAX5450/MAX5452/MAX5454 with a MAX4250 low-noise op amp to fine-tune a current to voltage converter. The physical sizes of both devices minimize circuit space. Adjustable Gain Amplifier Figures 6a and 6b shows the digitally adjusting the gain of the MAX4493 general-purpose, dual supply op amp. Figure 6a shows the MAX5450/MAX5452/MAX5454 variable resistor in series with a resistor to ground to form the adjustable gain control. Figure 6b shows the MAX545/MAX5453/ MAX5455 as a 3-terminal potentiometer. In these applications the low 5ppm/ C ratiometric tempco allows for a very stable adjustable gain over temperature. Adjustable Linear Regulator In Figure 7, the MAX5450/MAX5452/MAX5454 is shown digitally adjusting the output voltage of the MAX8866 dual linear regulator. In this circuit, the MAX5450/ MAX5452/MAX5454 is connected in series with a resistor to ground to form the adjustable feedback stage. The 8-bit MAX5450/MAX5452/MAX5454 allows precise tuning of the output voltage. 8
9 H S 256 R 255 R254 S 255 S 254 R 2 S 3 W CS INC U/D V DD GND CS2 UP/DOWN COUNTER POWER-ON RESET UP/DOWN COUNTER POSITION DECODER MAX5450 MAX5452 MAX5454 POSITION DECODER W L W2 L2 R S 2 Figure 3. MAX5450/MAX5452/MAX5454 Simplified Functional Diagram S L Figure 2. Simplified Digital Potentiometer Resistor Array H R 3 W CS INC U/D UP/DOWN COUNTER POSITION DECODER W V DD R 2 MAX5450 MAX5452 MAX5454 R V DD GND POWER-ON RESET MAX545 MAX5453 MAX5455 L H2 I S V OUT MAX4250 V OUT R = R ( I S R ) + R 2 L CS2 INC2 U/D2 UP/DOWN COUNTER POSITION DECODER W2 Figure 5. Adjustable Current to Voltage Converter L2 Figure 4. MAX545/MAX5453/MAX5455 Simplified Functional Diagram 9
10 MAX5450 MAX5452 MAX5454 V IN W L V CC V EE MAX4493 V OUT V+ OUT OUT 2 MAX8866 IN SHDN SET SHDN2 SET2 GND W L MAX5450 MAX5452 MAX5454 W 2 L 2 V OUT V OUT2 Figure 7. Adjustable Dual Linear Regulator Figure 6a. Variable Resistor Adjustable-Gain Amplifier V CC Truth Table CS U/D INC W V IN H X X O V OUT L L O MAX4493 L H O L L V EE L H + W X = Don t care = High-to-Low Transition O = Previous State = Decrement L H = Low-to-High Transition + = Increment MAX545 MAX5453 MAX5455 Chip Information TRANSISTOR COUNT: 9680 PROCESS: CMOS Figure 6b. Potentiometer Adjustable-Gain Amplifier 0
11 0.6±0. 0 e Ø0.50±0. 0.6±0. TOP VIEW 4X S H BOTTOM VIEW 0 S α Package Information INCHES DIM A A MIN - 2 MAX MIN - MAX A D D2 E E2 H L L b e c MILLIMETERS REF REF BSC BSC REF REF LUMAX.EPS D2 E2 GAGE PLANE A2 A c D b A α E L L FRONT VIEW SIDE VIEW PROPRIETARY INFORMATION TITLE: PACKAGE OUTLINE, 0L umax/usop APPROVAL DOCUMENT CONTROL NO REV.
12 Package Information (continued) TSSOP4.40mm.EPS PACKAGE OUTLINE, TSSOP 4.40mm BODY G 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. 2 Maxim Integrated Products, 20 San Gabriel Drive, Sunnyvale, CA Maxim Integrated Products Printed USA is a registered trademark of Maxim Integrated Products, Inc.
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APPLICATION NOTE A V A I L A B L E AN99 AN115 AN120 AN124 AN133 AN134 AN135 Terminal Voltages ±5V, 100 Taps Digitally Controlled Potentiometer (XDCP ) FEATURES Solid-state potentiometer 3-wire serial interface
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9-3379; Rev 4; /6 EVALUATION KIT AVAILABLE Dual, 256-Tap, Nonvolatile, I 2 C-Interface, General Description The nonvolatile, dual, linear-taper, digital potentiometers perform the function of a mechanical
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9-36; Rev ; 9/ SC7/SOT3-8, 5mA I, Rail-to-Rail I/O General Description The op amps deliver 4mW per channel into 3Ω from ultra-small SC7/SOT3 packages making them ideal for mono/stereo headphone drivers
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99 Rev ; /99 EVALUATION KIT AVAILABLE 65V/µs, Wideband, High-Output-Current, Single- General Description The // single-ended-todifferential line drivers are designed for high-speed communications. Using
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19-2804; Rev 2; 12/05 5-Pin Watchdog Timer Circuit General Description The is a low-power watchdog circuit in a tiny 5- pin SC70 package. This device improves system reliability by monitoring the system
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19-1422; Rev 2; 1/1 Low-Dropout, 3mA General Description The MAX886 low-noise, low-dropout linear regulator operates from a 2.5 to 6.5 input and is guaranteed to deliver 3mA. Typical output noise for this
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19-2575; Rev 0; 10/02 One-to-Four LVCMOS-to-LVPECL General Description The low-skew, low-jitter, clock and data driver distributes one of two single-ended LVCMOS inputs to four differential LVPECL outputs.
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9-3697; Rev 0; 4/05 3-Pin Silicon Oscillator General Description The is a silicon oscillator intended as a low-cost improvement to ceramic resonators, crystals, and crystal oscillator modules as the clock
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9-987; Rev ; 9/3 5MHz, Triple, -Channel Video General Description The is a triple, wideband, -channel, noninverting gain-of-two video amplifier with input multiplexing, capable of driving up to two back-terminated
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19-267; Rev ; 7/1 Low-Dropout, Constant-Current General Description The low-dropout bias supply for white LEDs is a high-performance alternative to the simple ballast resistors used in conventional white
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