Contact Us
SalesDept@heisener.com +86-755-83210559 ext. 811

FAN2001MPX

hotFAN2001MPX

FAN2001MPX

For Reference Only

Part Number FAN2001MPX
Manufacturer Fairchild/ON Semiconductor
Description IC REG BUCK ADJ 1A SYNC 6MLP
Datasheet FAN2001MPX Datasheet
Package 6-WDFN Exposed Pad
In Stock 259 piece(s)
Unit Price $ 0.8073 *
Lead Time Can Ship Immediately
Estimated Delivery Time Aug 9 - Aug 14 (Choose Expedited Shipping)
Request for Quotation

Part Number # FAN2001MPX (PMIC - Voltage Regulators - DC DC Switching Regulators) is manufactured by Fairchild/ON Semiconductor and distributed by Heisener. Being one of the leading electronics distributors, we carry many kinds of electronic components from some of the world’s top class manufacturers. Their quality is guaranteed by its stringent quality control to meet all required standards.

For FAN2001MPX specifications/configurations, quotation, lead time, payment terms of further enquiries please have no hesitation to contact us. To process your RFQ, please add FAN2001MPX with quantity into BOM. Heisener.com does NOT require any registration to request a quote of FAN2001MPX.

FAN2001MPX Specifications

ManufacturerFairchild/ON Semiconductor
CategoryIntegrated Circuits (ICs) - PMIC - Voltage Regulators - DC DC Switching Regulators
Datasheet FAN2001MPXDatasheet
Package6-WDFN Exposed Pad
Series-
FunctionStep-Down
Output ConfigurationPositive
TopologyBuck
Output TypeAdjustable
Number of Outputs1
Voltage - Input (Min)2.5V
Voltage - Input (Max)5.5V
Voltage - Output (Min/Fixed)0.8V
Voltage - Output (Max)5.5V
Current - Output1A
Frequency - Switching1.3MHz
Synchronous RectifierYes
Operating Temperature-40°C ~ 85°C (TA)
Mounting TypeSurface Mount
Package / Case6-WDFN Exposed Pad
Supplier Device Package6-MLP (3x3)

FAN2001MPX Datasheet

Page 1

Page 2

To learn more about ON Semiconductor, please visit our website at www.onsemi.com Please note: As part of the Fairchild Semiconductor integration, some of the Fairchild orderable part numbers will need to change in order to meet ON Semiconductor’s system requirements. Since the ON Semiconductor product management systems do not have the ability to manage part nomenclature that utilizes an underscore (_), the underscore (_) in the Fairchild part numbers will be changed to a dash (-). This document may contain device numbers with an underscore (_). Please check the ON Semiconductor website to verify the updated device numbers. The most current and up-to-date ordering information can be found at www.onsemi.com. Please email any questions regarding the system integration to Fairchild_questions@onsemi.com. Is Now Part of ON Semiconductor and the ON Semiconductor logo are trademarks of Semiconductor Components Industries, LLC dba ON Semiconductor or its subsidiaries in the United States and/or other countries. ON Semiconductor owns the rights to a number of patents, trademarks, copyrights, trade secrets, and other intellectual property. A listing of ON Semiconductor’s product/patent coverage may be accessed at www.onsemi.com/site/pdf/Patent-Marking.pdf. ON Semiconductor reserves the right to make changes without further notice to any products herein. ON Semiconductor makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does ON Semiconductor assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation special, consequential or incidental damages. Buyer is responsible for its products and applications using ON Semiconductor products, including compliance with all laws, regulations and safety requirements or standards, regardless of any support or applications information provided by ON Semiconductor. “Typical” parameters which may be provided in ON Semiconductor data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All operating parameters, including “Typicals” must be validated for each customer application by customer’s technical experts. ON Semiconductor does not convey any license under its patent rights nor the rights of others. ON Semiconductor products are not designed, intended, or authorized for use as a critical component in life support systems or any FDA Class 3 medical devices or medical devices with a same or similar classification in a foreign jurisdiction or any devices intended for implantation in the human body. Should Buyer purchase or use ON Semiconductor products for any such unintended or unauthorized application, Buyer shall indemnify and hold ON Semiconductor and its officers, employees, subsidiaries, affiliates, and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees arising out of, directly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized use, even if such claim alleges that ON Semiconductor was negligent regarding the design or manufacture of the part. ON Semiconductor is an Equal Opportunity/Affirmative Action Employer. This literature is subject to all applicable copyright laws and is not for resale in any manner.

Page 3

FAN2001/FAN2002 Rev. 1.0.2 1 www.fairchildsemi.com April 2005 ©2005 Fairchild Semiconductor Corporation F A N 2 0 0 1 /F A N 2 0 0 2 1 A H ig h -E ffi c ie n c y S te p -D o w n D C -D C C o n v e rte r FAN2001/FAN2002 1A High-Efficiency Step-Down DC-DC Converter Features ■ 96% Efficiency, Synchronous Operation ■ Adjustable Output Voltage Options from 0.8V to V IN ■ 2.5V to 5.5V Input Voltage Range ■ Up to 1A Output Current ■ Fixed Frequency 1.3MHz PWM Operation ■ High Efficiency Power Save Mode ■ 100% Duty Cycle Low Dropout Operation ■ Soft Start ■ Output Over-Voltage Protection ■ Dynamic Output Voltage Positioning ■ 25 µ A Quiescent Current ■ Thermal Shutdown and Short Circuit Protection ■ Pb-Free 3x3mm 6-Lead MLP Package Applications ■ Pocket PCs, PDAs ■ Cell Phones ■ Battery-Powered Portable Devices ■ Digital Cameras ■ Hard Disk Drives ■ Set-Top-Boxes ■ Point-of-Load Power ■ Notebook Computers ■ Communications Equipment Description Designed for use in battery-powered applications, the FAN2001/ FAN2002 is a high-efficiency, low-noise synchronous PWM cur- rent mode and Pulse Skip (Power Save) mode DC-DC con- verter. It can provide up to 1A of output current over a wide input range from 2.5V to 5.5V. The output voltage can be externally adjusted over a wide range of 0.8V to 5.5V by means of an external voltage divider. At moderate and light loads, pulse skipping modulation is used. Dynamic voltage positioning is applied, and the output voltage is shifted 0.8% above nominal value for increased headroom dur- ing load transients. At higher loads the system automatically switches over to current mode PWM control, operating at 1.3 MHz. A current mode control loop with fast transient response ensures excellent line and load regulation. To achieve high effi- ciency and ensure long battery life, the quiescent current is reduced to 25µA in Power Save mode, and the supply current drops below 1µA in shut-down mode. The FAN2001/FAN2002 is available in a 3x3mm 6-lead MLP package. Typical Application Figure 1. Typical Application 1 2 3 6 5 4 FB PGND SW PVIN VIN EN P1 (AGND) L1 R2 R1 VOUT 2 x 10µF 3.3µH 10µF 10KΩ 5KΩ 1.2V (1A) FAN2002 2 x 10µF10µF VOUT EN SW C IN C OUT 1.2V (1A)1 2 3 6 5 4 FB PGND VIN NC P1 (AGND) 3.3µH R1 10KΩ 5KΩ R2 FAN2001

Page 4

2 www.fairchildsemi.com FAN2001/FAN2002 Rev. 1.0.2 F A N 2 0 0 1 /F A N 2 0 0 2 1 A H ig h -E ffi c ie n c y S te p -D o w n D C -D C C o n v e rte r Pin Assignment Figure 2. Pin Assignment Pin Description FAN2001 (3x3mm 6-Lead MLP) FAN2002 (3x3mm 6-Lead MLP) Pin No. Pin Name Pin Description P1 AGND Analog Ground. P1 must be soldered to the PCB ground. 1 V IN Supply Voltage Input. 2 PGND Power Ground. This pin is connected to the internal MOSFET switches. This pin must be externally connected to AGND. 3 EN Enable Input. Logic high enables the chip and logic low disables the chip, reducing the supply current to less than 1µA. Do not float this pin. 4 FB Feedback Input. Adjustable voltage option, connect this pin to the resistor divider. 5 NC No Connection Pin. 6 SW Switching Node. This pin is connected to the internal MOSFET switches. Pin No. Pin Name Pin Description P1 AGND Analog Ground. P1 must be soldered to the PCB ground. 1 FB Feedback Input. Adjustable voltage option, connect this pin to the resistor divider. 2 PGND Power Ground. This pin is connected to the internal MOSFET switches. This pin must be exter- nally connected to AGND. 3 SW Switching Node. This pin is connected to the internal MOSFET switches. 4 PV IN Supply Voltage Input. This pin is connected to the internal MOSFET switches. 5 V IN Supply Voltage Input. 6 EN Enable Input. Logic high enables the chip and logic low disables the chip, reducing the supply current to less than 1µA. Do not float this pin. V IN PGND EN FB SW NC 1 2 3 6 5 4 P1 (AGND) FB PGND SW PV IN EN V IN 1 2 3 6 5 4 P1 (AGND) Top View 3x3mm 6-Lead MLP FAN2001 FAN2002

Page 5

3 www.fairchildsemi.com FAN2001/FAN2002 Rev. 1.0.2 F A N 2 0 0 1 /F A N 2 0 0 2 1 A H ig h -E ffi c ie n c y S te p -D o w n D C -D C C o n v e rte r Absolute Maximum Ratings (Note1) Recommended Operating Conditions Notes: 1. Stresses above those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. This is a stress rating only and functional operation of the device at these or any other conditions above those indicated in the operational section of this specification is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability. Absolute maximum ratings apply individually only, not in combination. Unless otherwise specified, all other voltages are referenced to AGND. 2. Junction to ambient thermal resistance, θ JA , is a strong function of PCB material, board thickness, thickness and number of copper planes, number of via used, diameter of via used, available copper surface, and attached heat sink characteristics. 3. Using Mil Std. 883E, method 3015.7(Human Body Model) and EIA/JESD22C101-A (Charge Device Model). 4. Refer to the applications section for further details. Parameter Min Max Unit V IN , PV IN -0.3 7 V Voltage On Any Other Pin -0.3 V IN V Lead Soldering Temperature (10 seconds) 260 °C Junction Temperature 150 °C Storage Temperature -65 150 °C Thermal Resistance-Junction to Tab ( θ JC ) , 3x3mm 6-lead MLP (Note 2) 8 °C/W Electrostatic Discharge Protection (ESD) Level (Note 3) HBM 4 kV CDM 1 Parameter Min Typ Max Unit Supply Voltage Range 2.5 5.5 V Output Voltage Range, Adjustable Version 0.8 V IN V Output Current 1 A Inductor (Note 4) 3.3 µ H Input Capacitor (Note 4) 10 µF Output Capacitor (Note 4) 2 x 10 µF Operating Ambient Temperature Range -40 +85 °C Operating Junction Temperature Range -40 +125 °C

Page 6

4 www.fairchildsemi.com FAN2001/FAN2002 Rev. 1.0.2 F A N 2 0 0 1 /F A N 2 0 0 2 1 A H ig h -E ffi c ie n c y S te p -D o w n D C -D C C o n v e rte r Electrical Characteristics Notes: 5. Refer to the application section for further details. 6. For output voltages ≤ 1.2V a 40 µ F output capacitor value is required to achieve a maximum output accuracy of 3% while operating in power save mode (PFM mode). V IN = V OUT + 0.6V(min. 2.5V) to 5.5V, I OUT = 350mA, V OUT =1.2V, EN = V IN , T A = -40°C to +85°C, Unless otherwise noted. Typical values are at T A = 25°C. Symbol Parameter Conditions Min. Typ. Max. Units V IN Input Voltage 0 mA ≤ I OUT ≤ 600 mA 2.5 5.5 V 0 mA ≤ I OUT ≤ 1000 mA 2.7 5.5 V I Q Quiescent Current I OUT = 0mA, Device is not switching 20 35 µ A I OUT = 0mA, Device is switching (Note 5) R2 =10K Ω 50 µ A R2 =100K Ω 25 µ A Shutdown Supply Current EN = GND 0.1 1 µ A Undervoltage Lockout Threshold V IN Rising 1.9 2.1 2.3 V Hysteresis 150 mV V ENH Enable High Input Voltage 1.3 V V ENL Enable Low Input Voltage 0.4 V I EN EN input bias current EN = V IN or GND 0.01 0.1 µ A R DS-ON PMOS On Resistance V IN = V GS = 5.5V 250 350 m Ω V IN = V GS = 2.5V 300 400 NMOS On Resistance V IN = V GS = 5.5V 200 300 m Ω V IN = V GS = 2.5V 250 350 I LIM P-channel current limit 2.5V < V IN < 5.5V 1300 1500 2000 mA Oscillator frequency 1000 1300 1500 KHz I lkg_(N) N-channel leakage current V DS = 5.5V 0.1 1 µ A I lkg_(P) P-channel leakage current V DS = 5.5V 0.1 1 µ A Line regulation I OUT ≤ 10 mA 0.16 %/V Load regulation 350 mA ≤ I OUT ≤ 1000 mA 0.15 % Vref Reference Voltage 0.8 V Output DC Voltage Accuracy (Note 6) 0 mA ≤ I OUT ≤ 1000 mA -3 +3 % Over-Temperature Protection PWM Mode Only 350 mA ≤ I OUT ≤ 1000 mA Rising Temperature 150 °C Hysteresis 20 °C Start-Up Time I OUT = 1000 mA, C OUT = 20 µF 800 µS

Page 7

5 www.fairchildsemi.com FAN2001/FAN2002 Rev. 1.0.2 F A N 2 0 0 1 /F A N 2 0 0 2 1 A H ig h -E ffi c ie n c y S te p -D o w n D C -D C C o n v e rte r Typical Performance Characteristics T A = 25°C, CIN = 10µF, COUT = 20µF, L = 3.3µH, R2 = 10KΩ, unless otherwise noted. 1 10 100 1000 60 65 70 75 80 85 90 95 100 VIN = 5V VOUT = 3.3V VIN = 3.6V VOUT = 1.2V VIN = 3.6V VOUT = 3V 0.1 1 10 100 1000 35 40 45 50 55 60 65 70 75 80 85 90 95 100 VIN = 5.5V VOUT = 3.3V VIN = 3.9V 0.1 1 10 100 1000 30 40 50 60 70 80 90 100 Load Current (mA) Load Current (mA) Load Current (mA) Load Current (mA) E ff ic ie n c y ( % ) E ff ic ie n c y ( % ) E ff ic ie n c y ( % ) Efficiency vs. Load Current Efficiency vs. Load Current Efficiency vs. Load Current VOUT = 1.2V VIN = 5.5V VIN = 3.6V VIN = 2.5V 0 200 400 600 800 1000 1.192 1.194 1.196 1.198 1.200 1.202 1.204 1.206 1.208 1.210 1.212 1.214 O u tp u t V o lt a g e ( V ) Q u ie s c e n t C u rr e n t (µ A ) O s c il la to r F re q u e n c y ( k H z ) VIN = 5V Output Voltage vs. Load Current 2.5 3.0 3.5 4.0 4.5 5.0 5.5 0 10 20 30 40 50 60 70 80 Input Voltage (V) R2 = 100KΩ R2 = 10KΩ Quiescent Current vs. Input Voltage -40 -20 0 20 40 60 80 100 1200 1220 1240 1260 1280 1300 1320 1340 1360 1380 1400 Temperature (°C) Frequency vs. Temperature VIN = 2.5V VIN = 3.6V VIN = 5.5V VOUT = 1.2V R2 = 100KΩ R2 = 100KΩ

Page 8

6 www.fairchildsemi.comFAN2001/FAN2002 Rev. 1.0.2 F A N 2 0 0 1 /F A N 2 0 0 2 1 A H ig h -E ffi c ie n c y S te p -D o w n D C -D C C o n v e rte r Typical Performance Characteristics (Contd.) TA = 25°C, CIN = 10µF, COUT = 20µF, L = 3.3µH, R2 = 10KΩ, unless otherwise noted. PWM Mode Power Save Mode Time (1µs/div) S W N o d e (2 V /d iv ) V o lt a g e In d u c to r (2 0 0 m A /d iv ) C u rr e n t O u tp u t (5 m V /d iv ) V o lt a g e Time (5µs/div) S W N o d e (2 V /d iv ) V o lt a g e O u tp u t (2 0 m V /d iv ) V o lt a g e In d u c to r (2 0 0 m A /d iv ) C u rr e n t Time (10µs/div) Load Transient Response O u tp u t (5 0 m V /d iv ) V o lt a g e In d u c to r (5 0 0 m A /d iv ) C u rr e n t 600mA100mA Load Transient Response Time (10µs/div) O u tp u t (5 0 m V /d iv ) V o lt a g e In d u c to r (5 0 0 m A /d iv ) C u rr e n t V o lt a g e a t E n a b le P in 600mA 100mA VOUT = 1.2V Start-Up Response O u tp u t (5 0 0 m V /d iv ) V o lt a g e In d u c to r (2 0 0 m A /d iv ) C u rr e n t Time (100µs/div) (5 V /D iv ) L o a d C u rr e n t S te p L o a d C u rr e n t S te p Start-Up Response Time (200µs/div) O u tp u t (5 0 0 m V /d iv ) V o lt a g e In d u c to r (5 0 0 m A /d iv ) C u rr e n t V o lt a g e a t E n a b le P in (5 V /D iv ) VOUT = 1.2V VOUT = 1.2V IOUT = 10mA VOUT = 1.2V IOUT = 1000mA

Page 9

7 www.fairchildsemi.comFAN2001/FAN2002 Rev. 1.0.2 F A N 2 0 0 1 /F A N 2 0 0 2 1 A H ig h -E ffi c ie n c y S te p -D o w n D C -D C C o n v e rte r Block Diagram Figure 3. Block Diagram Detailed Operation Description The FAN2001/FAN2002 is a step-down converter operating in a current-mode PFM/PWM architecture with a typical switching frequency of 1.3MHz. At moderate to heavy loads, the converter operates in pulse-width-modulation (PWM) mode. At light loads the converter enters a power-save mode (PFM pulse skipping) to keep the efficiency high. PWM Mode In PWM mode, the device operates at a fixed frequency of 1.3MHz. At the beginning of each clock cycle, the P-channel transistor is turned on. The inductor current ramps up and is monitored via an internal circuit. The P-channel switch is turned off when the sensed current causes the PWM comparator to trip when the output voltage is in regulation or when the inductor current reaches the current limit (set internally to typically 1500mA). After a minimum dead time the N-channel transistor is turned on and the inductor current ramps down. As the clock cycle is completed, the N-channel switch is turned off and the next clock cycle starts. PFM (Power Save) Mode As the load current decreases and the inductor current reaches negative value, the converter enters pulse-frequency-modula- tion (PFM) mode. The transition point for the PFM mode is given by the equation: The typical output current when the device enters PFM mode is 150mA for input voltage of 3.6V and output voltage of 1.2V. In PFM mode the device operates with a variable frequency and constant peak current, thus reducing the quiescent current to minimum. Consequently, the high efficiency is maintained at light loads. As soon as the output voltage falls below a thresh- old, set at 0.8% above the nominal value, the P-channel transis- tor is turned on and the inductor current ramps up. The P- channel switch turns off and the N-channel turns on as the peak inductor current is reached (typical 450mA). The N-channel transistor is turned off before the inductor cur- rent becomes negative. At this time the P-channel is switched on again starting the next pulse. The converter continues these pulses until the high threshold (typical 1.6% above nominal value) is reached. A higher output voltage in PFM mode gives additional headroom for the voltage drop during a load transient from light to full load. The voltage overshoot during this load transient is also minimized due to active regulation during turn on of the N-channel rectifier switch. The device stays in sleep mode until the output voltage falls below the low threshold. The FAN2001/FAN2002 enters the PWM mode as soon as the out- put voltage can no longer be regulated in PFM with constant peak current. 100% Duty Cycle Operation As the input voltage approaches the output voltage and the duty cycle exceeds the typical 95%, the converter turns the P-chan- nel transistor continuously on. In this mode the output voltage is equal to the input voltage minus the voltage drop across the P- channel transistor: VOUT = VIN – ILOAD × (RdsON + RL), where RdsON = P-channel switch ON resistance ILOAD = Output current RL = Inductor DC resistance FB ERROR AMP NEG. LIMIT COMP PFM COMP LOGIC CONTROL OVER VOLTAGE COMP UNDER-VOLTAGE LOCKOUT MOSFET DRIVER OSC SLOPE COMPENSATION REF FB REF IS IS CURRENT SENSE NEG. LIMIT SENSE DIGITAL SOFT START IS GND SW V INEN GND 0.8V COMP IOUT VOUT 1 VOUT VIN⁄( )– 2 L f××------------------------------------------×=

Page 10

8 www.fairchildsemi.comFAN2001/FAN2002 Rev. 1.0.2 F A N 2 0 0 1 /F A N 2 0 0 2 1 A H ig h -E ffi c ie n c y S te p -D o w n D C -D C C o n v e rte r UVLO and Soft Start The reference and the circuit remain reset until the VIN crosses its UVLO threshold. The FAN2001/FAN2002 has an internal soft-start circuit that limits the in-rush current during start-up. This prevents possible voltage drops of the input voltage and eliminates the output volt- age overshoot. The soft-start is implemented as a digital circuit increasing the switch current in four steps to the P-channel cur- rent limit (1500mA). Typical start-up time for a 20µF output capacitor and a load current of 1000mA is 800µs. Short Circuit Protection The switch peak current is limited cycle-by-cycle to a typical value of 1500mA. In the event of an output voltage short circuit, the device operates with a frequency of 400kHz and minimum duty cycle, therefore the average input current is typically 200mA. Thermal Shutdown When the die temperature exceeds 150°C, a reset occurs and will remain in effect until the die cools to 130°C, at that time the circuit will be allowed to restart. Applications Information Setting the Output Voltage The internal reference is 0.8V (Typical). The output voltage is divided by a resistor divider, R1 and R2 to the FB pin. The out- put voltage is given by: Where R1 + R2 < 800KΩ. According to this equation, and assuming desired output volt- age of 1.5096V, and given R2 = 10KΩ, the calculated value of R1 is 8.87KΩ. If quiescent current is a key design parameter a higher value feedback resistor can be used (e.g. R2 = 100KΩ) and a small bypass capacitor of 10pF is required in parallel with the upper resistor as shown in Figure 4. Figure 4. Setting the Output Voltage Inductor Selection The inductor parameters directly related to the device’s perfor- mances are saturation current and dc resistance. The FAN2001/ FAN2002 operates with a typical inductor value of 3.3µH. The lower the dc resistance, the higher the efficiency. For saturation current, the inductor should be rated higher than the maximum load current plus half of the inductor ripple current. This is calculated as follows: where: ∆IL = Inductor Ripple Current f = Switching Frequency L = Inductor Value Some recommended inductors are suggested in the table below: Table 1: Recommended Inductors Capacitors Selection For best performances, a low ESR input capacitor is required. A ceramic capacitor of at least 10µF, placed as close to the VIN and AGND pins of the device is recommended. The output capacitor determines the output ripple and the transient response. Table 2: Recommended Capacitors PCB Layout Recommendations The recommended PCB layout is shown in Figures 5 and 6. The inherently high peak currents and switching frequency of power supplies require a careful PCB layout design. Figure 5. Recommended PCB Layout (FAN2001) VOUT VREF 1 R1 R2 ------+   = Cf 2 x 10µF10µF VOUT EN SW CIN COUT 1.2V (1A)1 2 3 6 5 4 FB PGND VIN NC P1 (AGND) 3.3µH R1 100KΩ 50KΩ R2 Inductor Value Vendor Part Number 3.3µH Panasonic ELL6PM3R3N 3.3µH Murata LQS66C3R3M04 Capacitor Value Vendor Part Number 10µF Taiyo Yuden JMK212BJ106MG JMK316BJ106KL TDK C2012X5ROJ106K C3216X5ROJ106M Murata GRM32ER61C106K ∆IL VOUT 1 VOUT VIN⁄( )– L f×-----------------------------------------×=

FAN2001MPX Reviews

Average User Rating
5 / 5 (106)
★ ★ ★ ★ ★
5 ★
95
4 ★
11
3 ★
0
2 ★
0
1 ★
0

Write a Review

Not Rated
Thanks for Your Review!

Delil*****ishna

July 8, 2020

Super easy to replace and labelled terminals made it a quick replacement.

Kais*****anning

July 5, 2020

It is so great to order from a supplier that provides so many shipping options at reasonable cost. It couldn't be any easier to order from Heisener. Great job!

Evang***** Jain

June 28, 2020

Used this on starter solenoid and works as expected.

Jayle*****jamin

June 25, 2020

As I said before, your crew rock's keep up the fantastic work as we need you out there.

Virg***** David

June 25, 2020

I like doing business with Heisener. Get all the items I want. The website is well organized, intuitive, works correctly and pages load quickly. Well done!

Kat*****olon

June 23, 2020

Items arrived well pakaged, reasonable postage and as described. Top seller

Jas*****ates

June 19, 2020

Excellent, high quality product at a reasonable price. Timely delivery. Highly recommend product and vendor.

Samir*****acruz

June 18, 2020

Better than ever - more stock, better prices, quicker shipments, many choices of payment.

Sara*****wman

June 15, 2020

The capacitors were exactly the ones I wanted. Perfect fit.

Hei*****Lloyd

June 8, 2020

Fast delivery well packed and as described.

FAN2001MPX Guarantees

Service Guarantee

Service Guarantees

We guarantee 100% customer satisfaction.

Our experienced sales team and tech support team back our services to satisfy all our customers.

Quality Guarantee

Quality Guarantees

We provide 90 days warranty.

If the items you received were not in perfect quality, we would be responsible for your refund or replacement, but the items must be returned in their original condition.

FAN2001MPX Packaging

Verify Products
Customized Labels
Professional Packaging
Sealing
Packing
Insepction

FAN2001MPX Related Products

SIT8209AC-2F-28E-150.000000T SIT8209AC-2F-28E-150.000000T SiTIME, -20 TO 70C, 3225, 10PPM, 2.8V, 1, -, - View
ASTMHTFL-10.000MHZ-ZJ-E-T3 ASTMHTFL-10.000MHZ-ZJ-E-T3 Abracon LLC, OSC MEMS 10MHZ H/LVCMOS SMD, 4-SMD, No Lead, - View
CMR06F431FPDM CMR06F431FPDM Cornell Dubilier Electronics (CDE), CMR MICA, -, - View
MCF51QU32VHS MCF51QU32VHS NXP, IC MCU 32BIT 32KB FLASH 44MAPLGA, 44-VFLGA, - View
520-K-4-04-SI-16A 520-K-4-04-SI-16A E-T-A, CIR BRKR 16A 240VAC 110VDC, -, - View
RC6432F56R2CS RC6432F56R2CS Samsung, RESISTOR 2512 56.2OHM 1W 100, -, - View
ERJ-1TNF1152U ERJ-1TNF1152U Panasonic Electronic Components, RES SMD 11.5K OHM 1% 1W 2512, 2512 (6432 Metric), - View
MHQ1005P33NGTD25 MHQ1005P33NGTD25 TDK Corporation, FIXED IND 33NH 220MA 1.5 OHM SMD, 0402 (1006 Metric), - View
1688600000 1688600000 Weidmuller, TERM BLOCK PLUG 19POS 5.08MM, -, - View
97-3106A20-6PX-940 97-3106A20-6PX-940 Amphenol Industrial Operations, AB 3C 3#16 PIN PLUG, -, - View
97-3106A18-9P-940 97-3106A18-9P-940 Amphenol Industrial Operations, AB 7C 5#16, 2#12 PIN PLUG, -, - View
CTVPS00RF-25-8AA CTVPS00RF-25-8AA Amphenol Aerospace Operations, CONN RCPT HSNG MALE 8POS PNL MT, -, - View
Payment Methods
Delivery Services

Quick Inquiry

FAN2001MPX

Certified Quality

Heisener's commitment to quality has shaped our processes for sourcing, testing, shipping, and every step in between. This foundation underlies each component we sell.

ISO9001:2015, ICAS, IAF, UKAS

View the Certificates

Do you have any question about FAN2001MPX?

+86-755-83210559 ext. 811 SalesDept@heisener.com heisener007 2354944915 Send Message

FAN2001MPX Tags

  • FAN2001MPX
  • FAN2001MPX PDF
  • FAN2001MPX datasheet
  • FAN2001MPX specification
  • FAN2001MPX image
  • Fairchild/ON Semiconductor
  • Fairchild/ON Semiconductor FAN2001MPX
  • buy FAN2001MPX
  • FAN2001MPX price
  • FAN2001MPX distributor
  • FAN2001MPX supplier
  • FAN2001MPX wholesales

FAN2001MPX is Available in