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MAX1724EZK33

hot MAX1724EZK33

MAX1724EZK33

For Reference Only

Part Number MAX1724EZK33
Manufacturer Maxim Integrated
Description IC REG BST 3.3V 0.4A SYNC TSOT23
Datasheet MAX1724EZK33 Datasheet
Package SOT-23-5 Thin, TSOT-23-5
In Stock 439 piece(s)
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MAX1724EZK33 Specifications

ManufacturerMaxim Integrated
CategoryIntegrated Circuits (ICs) - PMIC - Voltage Regulators - DC DC Switching Regulators
Datasheet MAX1724EZK33 Datasheet
PackageSOT-23-5 Thin, TSOT-23-5
Series-
FunctionStep-Up
Output ConfigurationPositive
TopologyBoost
Output TypeFixed
Number of Outputs1
Voltage - Input (Min)0.8V
Voltage - Input (Max)5.5V
Voltage - Output (Min/Fixed)3.3V
Current - Output400mA (Switch)
Synchronous RectifierYes
Operating Temperature-40°C ~ 85°C (TA)
Mounting TypeSurface Mount
Package / CaseSOT-23-5 Thin, TSOT-23-5
Supplier Device PackageSOT-23-5

MAX1724EZK33 Datasheet

Page 1

Page 2

General Description The MAX1722/MAX1723/MAX1724 compact, high-efficiency, step-up DC-DC converters are available in tiny, 5-pin TSOT packages. They feature an extremely low 1.5μA quiescent supply current to ensure the highest possible light-load efficiency. Optimized for operation from one to two alkaline or nickel-metal-hydride (NiMH) cells, or a single Li+ cell, these devices are ideal for applications where extremely low quiescent current and ultra-small size are critical. Built-in synchronous rectification significantly improves efficiency and reduces size and cost by eliminating the need for an external Schottky diode. All three devices feature a 0.5Ω N-channel power switch. The MAX1722/ MAX1724 also feature proprietary noise-reduction circuitry, which suppresses electromagnetic interference (EMI) caused by the inductor in many step-up applications. The family offers different combinations of fixed or adjustable outputs, shutdown, and EMI reduction (see Selector Guide). Applications Benefits and Features ● Up to 90% Efficiency ● No External Diode or FETs Needed ● 1.5μA Quiescent Supply Current ● 0.1μA Logic-Controlled Shutdown ● ±1% Output Voltage Accuracy ● Fixed Output Voltage (MAX1724) or Adjustable Output Voltage (MAX1722/MAX1723) ● Up to 150mA Output Current ● 0.8V to 5.5V Input Voltage Range ● 0.91V Guaranteed Startup (MAX1722/MAX1724) ● Internal EMI Suppression (MAX1722/MAX1724) ● TSOT Package (0.9mm typ Height) ● µDFN Package (2mm x 2mm x 0.75mm) 19-1735; Rev 3; 12/15 Ordering Information and Selector Guide appears at end of data sheet. ● Pagers ● Remote Controls ● Remote Wireless Transmitters ● Personal Medical Devices ● Digital Still Cameras ● Single-Cell Battery- Powered Devices ● Low-Power Hand-Held Instruments ● MP3 Players ● Personal Digital Assistants (PDA) MAX1722/MAX1723/ MAX1724 1.5μA IQ, Step-Up DC-DC Converters in TSOT and µDFN Typical Operating Circuit LX OUT IN 0.8V TO 5.5V 3.3V AT UP TO 150mA ON OFF BATT MAX1724 SHDN GND 10µH OUT

Page 3

OUT, SHDN, BATT, LX to GND ...............................-0.3V to +6V FB to GND .............................................. -0.3V to (VOUT + 0.3V) OUT, LX Current ......................................................................1A Continuous Power Dissipation (TA = +70°C) 5-Pin Thin SOT (derate 2.7mW/°C above +70°C) ...219.10mW Operating Temperature Range ........................... -40°C to +85°C Junction Temperature ......................................................+150°C Storage Temperature Range ............................ -65°C to +150°C Soldering Temperature Lead(Pb)-free packages ..............................................+260°C Packages containing lead(Pb) .....................................+240°C (VBATT = 1.2V, VOUT = 3.3V (MAX1722/MAX1723), VOUT = VOUT(NOM) (MAX1724), SHDN = OUT, RL = ∞, TA = 0°C to +85°C, unless otherwise noted. Typical values are at TA = +25°C.) (Note 1) PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS Minimum Input Voltage MAX1722/MAX1724 0.8 V Operating Input Voltage VIN TA = +25°C MAX1722/MAX1724 0.91 5.5 V MAX1723 (Note 2) 1.2 5.5 Minimum Start-Up Input Voltage TA = +25°C,RL = 3kΩ MAX1722/MAX1724 0.83 0.91 V MAX1723 (Note 2) 0.87 1.2 Output Voltage VOUT MAX1724E__27 TA = +25°C 2.673 2.7 2.727 V TA = 0°C to +85°C 2.633 2.767 MAX1724E__30 TA = +25°C 2.970 3.0 3.030 TA = 0°C to +85°C 2.925 3.075 MAX1724E__33 TA = +25°C 3.267 3.3 3.333 TA = 0°C to +85°C 3.218 3.383 MAX1724E__50 TA = +25°C 4.950 5.0 5.050 TA = 0°C to +85°C 4.875 5.125 Output Voltage Range VOUT MAX1722/MAX1723 2 5.5 V Feedback Voltage VFB MAX1722/MAX1723 TA = +25°C 1.223 1.235 1.247 V TA = 0°C to +85°C 1.210 1.260 Feedback Bias Current IFB MAX1722/MAX1723 TA = +25°C 1.5 20 nA TA = +85°C 2.2 N-Channel On-Resistance RDS(ON) VOUT forced to 3.3V 0.5 1.0 Ω P-Channel On-Resistance RDS(ON) VOUT forced to 3.3V 1.0 2.0 Ω N-Channel Switch Current Limit ILIM VOUT forced to 3.3V 400 500 600 mA Switch Maximum On-Time tON 3.5 5 6.5 µs Synchronous Rectifier Zero- Crossing Current VOUT forced to 3.3V 5 20 35 mA Quiescent Current into OUT (Notes 3, 4) 1.5 3.6 µA Shutdown Current into OUT MAX1723/MAX1724(Notes 3, 4) TA = +25°C 0.01 0.5 µA TA = +85°C 0.1 Quiescent Current into BATT MAX1722/MAX1724(Note 4) TA = +25°C 0.001 0.5 µA TA = +85°C 0.01 MAX1722/MAX1723/ MAX1724 1.5μA IQ, Step-Up DC-DC Converters in TSOT and µDFN www.maximintegrated.com Maxim Integrated │ 2 Absolute Maximum Ratings 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

Page 4

(VBATT = 1.2V, VOUT = 3.3V (MAX1722/MAX1723), VOUT = VOUT(NOM) (MAX1724), SHDN = OUT, RL = ∞, TA = -40°C to +85°C, unless otherwise noted.) (Note 1) (VBATT = 1.2V, VOUT = 3.3V (MAX1722/MAX1723), VOUT = VOUT(NOM) (MAX1724), SHDN = OUT, RL = ∞, TA = 0°C to +85°C, unless otherwise noted. Typical values are at TA = +25°C.) (Note 1) Note 1: Limits are 100% production tested at TA = +25°C. Limits over the operating temperature range are guaranteed by design. Note 2: Guaranteed with the addition of a Schottky MBR0520L external diode between LX and OUT when using the MAX1723 with only one cell, and assumes a 0.3V voltage drop across the Schottky diode (see Figure 3). Note 3: Supply current is measured with an ammeter between the output and OUT pin. This current correlates directly with actual battery supply current, but is reduced in value according to the step-up ratio and efficiency. Note 4: VOUT forced to the following conditions to inhibit switching: VOUT = 1.05 x VOUT(NOM) (MAX1724), VOUT = 3.465V (MAX1722/MAX1723). PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS Shutdown Current into BATT MAX1724 (Note 4) TA = +25°C 0.001 0.5 µA TA = +85°C 0.01 SHDN Voltage Threshold VIL MAX1723/MAX1724 75 400 mV VIH MAX1723/MAX1724 500 800 SHDN Input Bias Current MAX1723/MAX1724,VSHDN = 5.5V TA = +25°C 2 100 nA TA = +85°C 7 PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS Output Voltage VOUT MAX1724E__27 2.633 2.767 V MAX1724E__30 2.925 3.075 MAX1724E__33 3.218 3.383 MAX1724E__50 4.875 5.125 Output Voltage Range VOUT MAX1722/MAX1723 2 5.5 V Feedback Voltage VFB MAX1722/MAX1723 1.200 1.270 V N-Channel On-Resistance RDS(ON) VOUT forced to 3.3V 1.0 Ω P-Channel On-Resistance RDS(ON) VOUT forced to 3.3V 2.0 Ω N-Channel Switch Current Limit ILIM VOUT forced to 3.3V 400 620 mA Switch Maximum On-Time tON 3.5 6.5 µs Synchronous Rectifier Zero- Crossing Current VOUT forced to 3.3V 5 35 mA Quiescent Current into OUT (Notes 3,4) 3.6 µA SHDN Voltage Threshold VIL MAX1723/MAX1724 75 mV VIH MAX1723/MAX1724 800 MAX1722/MAX1723/ MAX1724 1.5μA IQ, Step-Up DC-DC Converters in TSOT and µDFN www.maximintegrated.com Maxim Integrated │ 3 Electrical Characteristics Electrical Characteristics (continued)

Page 5

(Figure 3 (MAX1723), Figure 7 (MAX1722), Figure 8 (MAX1724), VBATT = VIN = 1.5V, L = 10μH, CIN = 10μF, COUT = 10μF, TA = +25°C, unless otherwise noted.) 100 0.01 0.1 1 10 100 1000 EFFICIENCY vs. LOAD CURRENT (VOUT = 3.3V) M AX 17 22 to c0 2 LOAD CURRENT (mA) EF FI CI EN CY (% ) 60 80 50 70 90 VIN = 2.0V VIN = 2.5V VIN = 1.5V VIN = 1.0V L = DO1606 100 0.01 0.1 1 10 100 1000 EFFICIENCY vs. LOAD CURRENT (VOUT = 2.5V) M AX 17 22 to c0 3 LOAD CURRENT (mA) EF FI CI EN CY (% ) 60 80 50 70 90 VIN = 1.5V VIN = 2.0V VIN = 1.0V L = DO1606 0 40 120 80 160 200 0 21 3 4 5 MAXIMUM OUTPUT CURRENT vs. INPUT VOLTAGE M AX 17 22 to c0 4 INPUT VOLTAGE (V) I O UT (M AX ) ( mA ) VOUT = 2.5V VOUT = 5.0V VOUT = 3.3V 10 100 0.8 1.0 1.2 1.4 1.6 2.0 1.8 2.2 2.4 0.01 0.1 1 STARTUP VOLTAGE vs. LOAD CURRENT M AX 17 22 to c0 5 LOAD CURRENT (mA) ST AR TU P VO LT AG E (V ) 0.6 RESISTIVE LOAD VOUT = 5.0V 0 0.4 0.2 0.8 0.6 1.2 1.0 1.4 1.8 1.6 2.0 1.0 2.0 2.5 3.01.5 3.5 4.0 4.5 5.0 5.5 M AX 17 22 to c0 6 QU IE SC EN T CU RR EN T (µ A) OUTPUT VOLTAGE (V) QUIESCENT CURRENT INTO OUT vs. OUTPUT VOLTAGE NO LOAD 0 0.4 0.2 0.8 0.6 1.0 1.2 -40 85 STARTUP VOLTAGE vs. TEMPERATURE M AX 17 22 to c0 7 TEMPERATURE (°C) ST AR TU P VO LT AG E (V ) 10-15 35 60 NO LOAD 100 0.01 0.1 1 10 100 1000 EFFICIENCY vs. LOAD CURRENT (VOUT = 5.0V) M AX 17 22 to c0 1 LOAD CURRENT (mA) EF FI CI EN CY (% ) 60 80 50 70 90 VIN = 2.0V VIN = 3.3V VIN = 4.0V VIN = 1.5V VIN = 1.0V L = DO1606 1µs/div ILX 500mA/div VOUT 50mV/div VLX 2V/div SWITCHING WAVEFORMS M AX 17 22 to c0 8 IOUT = 50mA, VOUT = 5.0V, VIN = 3.3V MAX1722/MAX1723/ MAX1724 1.5μA IQ, Step-Up DC-DC Converters in TSOT and µDFN Maxim Integrated │ 4www.maximintegrated.com Typical Operating Characteristics

Page 6

(Figure 3 (MAX1723), Figure 7 (MAX1722), Figure 8 (MAX1724), VBATT = VIN = 1.5V, L = 10μH, CIN = 10μF, COUT = 10μF, TA = +25°C, unless otherwise noted.) 200µs/div A A: VOUT, 50mV/div B: IOUT, 20mA/div B LOAD-TRANSIENT RESPONSE M AX 17 22 to c0 9 3.3V 50mA 0 1ms/div VSHDN 1V/div 5V 0 0 2V SHUTDOWN RESPONSE M AX 17 22 to c1 0 VIN = 3.3V, VOUT = 5.0V, ROUT = 100Ω VOUT 2V/div 0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 -40 -15 10 35 60 85 SHUTDOWN INPUT THRESHOLD vs. TEMPERATURE M AX 17 22 to c1 1 TEMPERATURE (°C) SH UT DO W N TH RE SH OL D (m V) RISING EDGE FALLING EDGE MAX1722/MAX1723/ MAX1724 1.5μA IQ, Step-Up DC-DC Converters in TSOT and µDFN Maxim Integrated │ 5www.maximintegrated.com Typical Operating Characteristics (continued)

Page 7

MAX1722/MAX1723/ MAX1724 1.5μA IQ, Step-Up DC-DC Converters in TSOT and µDFN www.maximintegrated.com Maxim Integrated │ 6 PIN NAME FUNCTION MAX1722 MAX1723 MAX1724 MAX1722 MAX1723 MAX1724 1 — 1 2 — 2 BATT Battery Input and Damping Switch Connection — 1 3 — 2 1 SHDN Shutdown Input. Drive high for normal operation. Drive low for shutdown. 2 2 2 3 3 3 GND Ground 3 3 — 1 1 — FB Feedback Input to Set Output Voltage. Use a resistor-divider network to adjust the output voltage. See Setting the Output Voltage section. 4 4 4 6 6 6 OUT Power Output. OUT also provides bootstrap power to the IC. 5 5 5 4 4 4 LX Internal N-channel MOSFET Switch Drain and P-Channel Synchronous Rectifier Drain — — — 5 5 5 N.C. No connect. Pin Description Pin Configurations TOP VIEW GND OUT 1 5 LXBATT MAX1724 TSOT 2 3 4SHDN GND OUTFB 1 5 LXSHDN TSOT 2 3 4 MAX1723 GND OUTFB 1 + 5 LXBATT MAX1722 TSOT 2 3 4 4 5 6 3 1 2 FB BATT GND OUT N.C. LX MAX1722 µDFN 4 5 6 3 1 2 FB BATT GND OUT N.C. LX MAX1722 µDFN 4 5 6 3 1 2 FB SHDN GND OUT N.C. LX MAX1723 µDFN

Page 8

Detailed Description The MAX1722/MAX1723/MAX1724 compact, high-effi- ciency, step-up DC-DC converters are guaranteed to start up with voltages as low as 0.91V and operate with an input voltage down to 0.8V. Consuming only 1.5μA of quiescent current, these devices include a built-in syn- chronous rectifier that reduces cost by eliminating the need for an external diode and improves overall efficiency by minimizing losses in the circuit (see Synchronous Rectification section). The MAX1722/MAX1724 feature a clamp circuit that reduces EMI due to inductor ringing. The MAX1723/MAX1724 feature an active-low shutdown that reduces quiescent supply current to 0.1μA. The MAX1722/MAX1723 have an adjustable output voltage, while the MAX1724 is available with four fixed-output voltage options (see Selector Guide). Figure 1 is the MAX1723 simplified functional diagram and Figure 2 is the MAX1724 simplified functional diagram. PFM Control Scheme A forced discontinuous, current-limited, pulse-frequency- modulation (PFM) control scheme is a key feature of the MAX1722/MAX1723/MAX1724. This scheme provides ultra-low quiescent current and high efficiency over a wide output current range. There is no oscillator; the inductor current is limited by the 0.5A N-channel current limit or by the 5μs switch maximum on-time. Following each on cycle, the inductor current must ramp to zero before another cycle may start. When the error compara- tor senses that the output has fallen below the regulation threshold, another cycle begins. Synchronous Rectification The internal synchronous rectifier eliminates the need for an external Schottky diode, thus reducing cost and board space. While the inductor discharges, the P-channel MOSFET turns on and shunts the MOSFET body diode. As a result, the rectifier voltage drop is significantly reduced, improving efficiency without the addition of external components. Low-Voltage Startup Circuit The MAX1722/MAX1723/MAX1724 contain a low-volt- age startup circuit to control DC-DC operation until the output voltage exceeds 1.5V (typ). The minimum start- Figure 1. MAX1723 Simplified Functional Diagram P N CONTROL LOGIC STARTUP CIRCUITRY DRIVER GND FB OUT LX CURRENT LIMIT1.235V REFERENCE ERROR COMPARATOR ZERO- CROSSING DETECTOR MAX1723 SHDN MAX1722/MAX1723/ MAX1724 1.5μA IQ, Step-Up DC-DC Converters in TSOT and µDFN www.maximintegrated.com Maxim Integrated │ 7

Page 9

up voltage is a function of load current (see Typical Operating Characteristics). This circuit is powered from the BATT pin for the MAX1722/MAX1724, guaranteeing startup at input voltages as low as 0.91V. The MAX1723 lacks a BATT pin; therefore, this circuit is powered through the OUT pin. Adding a Schottky diode in parallel with the P-channel synchronous rectifier allows for startup voltages as low as 1.2V for the MAX1723 (Figure 3). The external Schottky diode is not needed for input voltages greater than 1.8V. Once started, the output maintains the load as the battery voltage decreases below the startup voltage. Shutdown (MAX1723/MAX1724) The MAX1723/MAX1724 enter shutdown when the SHDN pin is driven low. During shutdown, the body diode of the P-channel MOSFET allows current to flow from the bat- tery to the output. VOUT falls to approximately VIN - 0.6V and LX remains high impedance. Shutdown can be pulled as high as 6V, regardless of the voltage at BATT or OUT. For normal operation, connect SHDN to the input. Figure 2. MAX1724 Simplified Functional Diagram Figure 3. MAX1723 Single-Cell Operation P N CONTROL LOGIC STARTUP CIRCUITRY DAMPING SWITCH DRIVER GND SHDN R1 R2 BATT LX OUT CURRENT LIMIT MAX1724 ERROR COMPARATOR ZERO- CROSSING DETECTOR 1.235V REFERENCE VOUT = 3.6V 1.2V TO VOUT D1 10µH 10µF R2 2.37MΩ R1 1.24MΩ 10µF LX OUT SHDN GND FB MAX1723 MAX1722/MAX1723/ MAX1724 1.5μA IQ, Step-Up DC-DC Converters in TSOT and µDFN www.maximintegrated.com Maxim Integrated │ 8

Page 10

BATT/Damping Switch (MAX1722/MAX1724) The MAX1722/MAX1724 include an internal damping switch (Figure 4) to minimize ringing at LX and reduce EMI. When the energy in the inductor is insufficient to supply current to the output, the capacitance and induc- tance at LX form a resonant circuit that causes ringing. The damping switch supplies a path to quickly dissipate this energy, suppressing the ringing at LX. This does not reduce the output ripple, but does reduce EMI with minimal impact on efficiency. Figures 5 and 6 show the LX node voltage waveform without and with the damping switch, respectively. Design Procedure Setting the Output Voltage (MAX1722/MAX1723) The output voltage can be adjusted from 2V to 5.5V using external resistors R1 and R2 (Figure 7). Since FB leakage is 20nA (max), select feedback resistor R1 in the 100kΩ to 1MΩ range. Calculate R2 as follows: OUT FB VR2 R1 1 V   = −    where VFB = 1.235V. Figure 4. Simplified Diagram of Damping Switch Figure 5. LX Ringing Without Damping Switch (MAX1723) Figure 6. LX Ringing With Damping Switch (MAX1722/MAX1724) MAX1722 MAX1724 PDRV DAMP NDRV TIMING CIRCUIT OUT VOUT VIN BATT LX DAMPING SWITCH GND P N 1µs/div 1V/div 1µs/div 1V/div MAX1722/MAX1723/ MAX1724 1.5μA IQ, Step-Up DC-DC Converters in TSOT and µDFN www.maximintegrated.com Maxim Integrated │ 9

MAX1724EZK33 Reviews

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Evie*****esan

December 12, 2019

Well packaged and good condition with the parts, arrived on time, good customer service.

Tren*****owers

October 12, 2019

Excellent company. Product as described. Usually fast and well packed.Very nice.

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July 2, 2019

They are great as I need, I give 5 stars.

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July 1, 2019

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May 29, 2019

Easier, quicker and cheaper to buy this whole assortment than to get just the few I needed from an electronics store.

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May 25, 2019

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April 19, 2019

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April 11, 2019

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March 14, 2019

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February 16, 2019

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