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S-8261ACTMD-G4TT2U

hotS-8261ACTMD-G4TT2U

S-8261ACTMD-G4TT2U

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Part Number S-8261ACTMD-G4TT2U
Manufacturer SII Semiconductor Corporation
Description IC BATT PROTECTION
Datasheet S-8261ACTMD-G4TT2U Datasheet
Package SOT-23-6
In Stock 41,544 piece(s)
Unit Price $ 0.3335 *
Lead Time Can Ship Immediately
Estimated Delivery Time Jan 28 - Feb 2 (Choose Expedited Shipping)
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Part Number # S-8261ACTMD-G4TT2U (PMIC - Battery Management) is manufactured by SII Semiconductor Corporation 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 S-8261ACTMD-G4TT2U specifications/configurations, quotation, lead time, payment terms of further enquiries please have no hesitation to contact us. To process your RFQ, please add S-8261ACTMD-G4TT2U with quantity into BOM. Heisener.com does NOT require any registration to request a quote of S-8261ACTMD-G4TT2U.

S-8261ACTMD-G4TT2U Specifications

ManufacturerSII Semiconductor Corporation
CategoryIntegrated Circuits (ICs) - PMIC - Battery Management
Datasheet S-8261ACTMD-G4TT2UDatasheet
PackageSOT-23-6
Series-
FunctionBattery Protection
Battery ChemistryLithium-Ion/Polymer
Number of Cells1
Fault ProtectionOver Current, Short Circuit
Interface-
Operating Temperature-40°C ~ 85°C (TA)
Package / CaseSOT-23-6
Supplier Device PackageSOT-23-6

S-8261ACTMD-G4TT2U Datasheet

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S-8261 Series www.ablicinc.com BATTERY PROTECTION IC FOR 1-CELL PACK © ABLIC Inc., 2001-2016 Rev.5.4_03 1 The S-8261 Series is a lithium-ion / lithium polymer rechargeable battery protection IC incorporating high-accuracy voltage detection circuit and delay circuits. The S-8261 Series is suitable for protection of single-cell lithium-ion / lithium polymer battery packs from overcharge, overdischarge and overcurrent.  Features (1) Internal high accuracy voltage detection circuit  Overcharge detection voltage 3.900 V to 4.500 V (applicable in 5 mV step) Accuracy: 25 mV (25C) and 30 mV (5C to 55C)  Overcharge hysteresis voltage 0.1 V to 0.4 V*1 Accuracy: 25 mV The overcharge hysteresis voltage can be selected from the range 0.1 V to 0.4 V in 50 mV step.  Overdischarge detection voltage 2.000 V to 3.000 V (applicable in 10 mV step) Accuracy: 50 mV  Overdischarge hysteresis voltage 0.0 V to 0.7 V*2 Accuracy: 50 mV The overdischarge hysteresis voltage can be selected from the range 0.0 V to 0.7 V in 100 mV step.  Overcurrent 1 detection voltage 0.050 V to 0.300 V (applicable in 10 mV step) Accuracy: 15 mV  Overcurrent 2 detection voltage 0.500 V (fixed) Accuracy: 100 mV (2) High-withstand voltage (VM pin and CO pin: Absolute maximum rating  28 V) (3) Delay times (overcharge: tCU, overdischarge: tDL, overcurrent 1: tlOV1, overcurrent 2: tlOV2) are generated by an internal circuit. No external capacitor is necessary. Accuracy: 20% (4) Three-step overcurrent detection circuit is included (overcurrent 1, overcurrent 2 and load short-circuiting). (5) 0 V battery charge function “Available” / “Unavailable” is selectable. (6) Power-down function “Yes” / “No” is selectable. (7) Charger detection function and abnormal charge current detection function  The overdischarge hysteresis is released by detecting negative voltage at the VM pin (0.7 V typ.) (Charger detection function).  When the output voltage of the DO pin is high and the voltage at the VM pin is equal to or lower than the charger detection voltage (0.7 V typ.), the output voltage of the CO pin goes low (Abnormal charge current detection function). (8) Low current consumption  Operation mode 3.5 A typ., 7.0 A max.  Power-down mode 0.1 A max. (9) Wide operating temperature range 40C to 85C (10) Lead-free, Sn 100%, halogen-free*3 *1. Overcharge release voltage  Overcharge detection voltage  Overcharge hysteresis voltage (where overcharge release voltage  3.8 V is prohibited.) *2. Overdischarge release voltage  Overdischarge detection voltage  Overdischarge hysteresis voltage (where overdischarge release voltage  3.4 V is prohibited.) *3. Refer to “ Product Name Structure” for details.  Applications  Lithium-ion rechargeable battery packs  Lithium polymer rechargeable battery packs  Package  SOT-23-6 www.ablic.com

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BATTERY PROTECTION IC FOR 1-CELL PACK S-8261 Series Rev.5.4_03 2  Block Diagram - + - + VM VSS VDD CO DO Overcharge detection comparator Overcurrent 1 detection comparator - + - + Load short-circuiting detection comparator Output control circuit - + Overcurrent 2 detection comparator RVMD RVMS Charger detection circuit 0 V battery charge circuit or 0 V battery charge inhibition circuit Divider control circuit Oscillator control circuit Overdischarge detection comparator DP Remark All the diodes shown in the figure are parasitic diodes. Figure 1

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BATTERY PROTECTION IC FOR 1-CELL PACK Rev.5.4_03 S-8261 Series 3  Product Name Structure 1. Product Name S-8261A xx MD - xxx T2 x Environmental code U: Lead-free (Sn 100%), halogen-free S: Lead-free, halogen-free G: Lead-free (for details, please contact our sales office) IC direction in tape specifications*1 Product name (abbreviation)*2 Package name (abbreviation) MD: SOT-23-6 Serial code Assigned from AA to ZZ in alphabetical order *1. Refer to the tape drawing. *2. Refer to “3. Product Name List”. 2. Package Package name Drawing code Package Tape Reel SOT-23-6 MP006-A-P-SD MP006-A-C-SD MP006-A-R-SD

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BATTERY PROTECTION IC FOR 1-CELL PACK S-8261 Series Rev.5.4_03 4 3. Product Name List Table 1 (1 / 2) Product name Overcharge detection voltage [VCU] Overcharge hysteresis voltage [VHC] Overdischarge detection voltage [VDL] Overdischarge hysteresis voltage [VHD] Overcurrent 1 detection voltage [VIOV1] 0 V battery charge function Delay time combi- nation *1 Power-down function S-8261AAGMD-G2GT2x 4.280 V 0.20 V 2.300 V 0 V 0.160 V Available (1) Yes S-8261AAHMD-G2HT2x 4.280 V 0.20 V 2.300 V 0 V 0.080 V Available (1) Yes S-8261AAJMD-G2JT2x 4.325 V 0.25 V 2.500 V 0.4 V 0.150 V Unavailable (1) Yes S-8261AALMD-G2LT2x 4.300 V 0.10 V 2.300 V 0 V 0.080 V Unavailable (1) Yes S-8261AAMMD-G2MT2x 4.300 V 0.10 V 2.300 V 0 V 0.200 V Unavailable (1) Yes S-8261AANMD-G2NT2x 4.275 V 0.10 V 2.300 V 0.1 V 0.100 V Available (1) Yes S-8261AAOMD-G2OT2x 4.280 V 0.20 V 2.300 V 0 V 0.130 V Unavailable (1) Yes S-8261AAPMD-G2PT2x 4.325 V 0.25 V 2.500 V 0.4 V 0.100 V Unavailable (1) Yes S-8261AARMD-G2RT2x 4.280 V 0.20 V 2.300 V 0 V 0.100 V Available (1) Yes S-8261AASMD-G2ST2x 4.280 V 0.20 V 2.300 V 0 V 0.150 V Unavailable (2) Yes S-8261AATMD-G2TT2x 4.300 V 0.10 V 2.300 V 0 V 0.080 V Available (3) Yes S-8261AAUMD-G2UT2x 4.275 V 0.10 V 2.300 V 0.1 V 0.100 V Available (4) Yes S-8261AAXMD-G2XT2x 4.350 V 0.10 V 2.300 V 0.1 V 0.100 V Available (4) Yes S-8261AAZMD-G2ZT2x 4.280 V 0.25 V 2.500 V 0.4 V 0.100 V Unavailable (1) Yes S-8261ABAMD-G3AT2x 4.350 V 0.20 V 2.500 V 0 V 0.200 V Available (4) Yes S-8261ABBMD-G3BT2x 4.275 V 0.20 V 2.300 V 0 V 0.130 V Available (1) Yes S-8261ABCMD-G3CT2x 4.300 V 0.20 V 2.300 V 0 V 0.130 V Available (1) Yes S-8261ABIMD-G3IT2x 4.275 V 0.20 V 2.300 V 0 V 0.200 V Unavailable (5) Yes S-8261ABJMD-G3JT2x 4.280 V 0.20 V 3.000 V 0 V 0.080 V Available (1) Yes S-8261ABKMD-G3KT2x 4.100 V 0.25 V 2.500 V 0.4 V 0.150 V Unavailable (1) Yes S-8261ABLMD-G3LT2x 4.275 V 0.20 V 2.300 V 0 V 0.050 V Unavailable (5) Yes S-8261ABMMD-G3MT2x 4.280 V 0.20 V 2.800 V 0 V 0.100 V Available (1) Yes S-8261ABNMD-G3NT2x 4.300 V 0.20 V 2.300 V 0 V 0.060 V Available (1) Yes S-8261ABPMD-G3PT2x 4.200 V 0.10 V 2.800 V 0.1 V 0.150 V Unavailable (1) Yes S-8261ABRMD-G3RT2x 4.275 V 0.20 V 2.500 V 0.4 V 0.150 V Unavailable (1) Yes S-8261ABSMD-G3ST2x 4.280 V 0.10 V 2.500 V 0.5 V 0.180 V Unavailable (1) Yes S-8261ABTMD-G3TT2x 4.280 V 0.20 V 3.000 V 0.4 V 0.080 V Available (5) Yes S-8261ABYMD-G3YT2x 4.275 V 0.10 V 2.300 V 0.1 V 0.100 V Available (6) Yes S-8261ABZMD-G3ZT2x 4.325 V 0.25 V 2.500 V 0.4 V 0.150 V Unavailable (6) Yes S-8261ACAMD-G4AT2x 4.280 V 0.20 V 2.300 V 0 V 0.130 V Unavailable (6) Yes S-8261ACBMD-G4BT2x 4.250 V 0.20 V 2.600 V 0.3 V 0.120 V Unavailable (1) No S-8261ACDMD-G4DT2x 4.350 V 0.25 V 2.300 V 0.7 V 0.250 V Available (7) Yes S-8261ACEMD-G4ET2x 3.900 V 0.10 V 2.000 V 0.3 V 0.100 V Available (1) Yes S-8261ACFMD-G4FT2x 4.280 V 0.20 V 2.300 V 0 V 0.100 V Available (8) Yes S-8261ACHMD-G4HT2x 4.465 V 0.30 V 2.100 V 0 V 0.150 V Available (9) Yes S-8261ACIMD-G4IT2x 4.250 V 0.20 V 2.400 V 0.5 V 0.100 V Available (1) No S-8261ACJMD-G4JT2x 4.275 V 0.10 V 2.300 V 0.1 V 0.150 V Available (1) Yes S-8261ACKMD-G4KT2x 4.280 V 0.20 V 2.800 V 0 V 0.130 V Available (1) Yes *1. Refer to the Table 2 about the details of the delay time combinations (1) to (9). Remark 1. Please contact our sales office for the products with detection voltage value other than those specified above. 2. x: G or U 3. Please select products of environmental code = U for Sn 100%, halogen-free products.

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BATTERY PROTECTION IC FOR 1-CELL PACK Rev.5.4_03 S-8261 Series 5 Table 1 (2 / 2) Product name Overcharge detection voltage [VCU] Overcharge hysteresis voltage [VHC] Overdischarge detection voltage [VDL] Overdischarge hysteresis voltage [VHD] Overcurrent 1 detection voltage [VIOV1] 0 V battery charge function Delay time combi- nation *1 Power-down function S-8261ACMMD-G4MT2x 4.325 V 0.20 V 3.000 V 0.4 V 0.060 V Unavailable (1) Yes S-8261ACNMD-G4NT2x 4.215 V 0.10 V 2.300 V 0.1 V 0.130 V Unavailable (1) Yes S-8261ACSMD-G4ST2y 4.350 V 0.10 V 2.300 V 0.1 V 0.150 V Available (6) Yes *1. Refer to the Table 2 about the details of the delay time combinations (1) to (9). Remark 1. Please contact our sales office for the products with detection voltage value other than those specified above. 2. x: G or U 3. y: S or U 4. Please select products of environmental code = U for Sn 100%, halogen-free products. Table 2 Delay time combination Overcharge detection delay time [tCU] Overdischarge detection delay time [tDL] Overcurrent 1 detection delay time [tlOV1] Overcurrent 2 detection delay time [tlOV2] Load short-circuiting detection delay time [tSHORT] (1) 1.2 s 144 ms 9 ms 2.24 ms 320 s (2) 1.2 s 144 ms 4.5 ms 2.24 ms 320 s (3) 4.6 s 36 ms 18 ms 9 ms 320 s (4) 4.6 s 144 ms 9 ms 2.24 ms 320 s (5) 1.2 s 36 ms 9 ms 2.24 ms 320 s (6) 1.2 s 144 ms 9 ms 1.12 ms 320 s (7) 1.2 s 290 ms 18 ms 2.24 ms 320 s (8) 1.2 s 144 ms 18 ms 2.24 ms 320 s (9) 0.3 s 36 ms 9 ms 1.12 ms 320 s Remark The delay times can be changed within the range listed Table 3. For details, please contact our sales office. Table 3 Delay time Symbol Selection range Remarks Overcharge detection delay time tCU 0.15 s 1.2 s *1 4.6 s Choose from the left. Overdischarge detection delay time tDL 36 ms 144 ms *1 290 ms Choose from the left. Overcurrent 1 detection delay time tlOV1 4.5 ms 9 ms *1 18 ms Choose from the left. Overcurrent 2 detection delay time tlOV1 1.12 ms 2.24 ms *1  Choose from the left. Load short-circuiting detection delay time tSHORT  320 s *1 600 s Choose from the left. *1. The value is the delay time of the standard products.

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BATTERY PROTECTION IC FOR 1-CELL PACK S-8261 Series Rev.5.4_03 6  Pin Configuration SOT-23-6 Top view 6 4 5 1 2 3 Figure 2 Table 4 Pin No. Symbol Description 1 DO FET gate control pin for discharge (CMOS output) 2 VM Voltage detection pin between VM and VSS (Overcurrent detection pin) 3 CO FET gate control pin for charge (CMOS output) 4 DP Test pin for delay time measurement 5 VDD Positive power supply input pin 6 VSS Negative power supply input pin

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BATTERY PROTECTION IC FOR 1-CELL PACK Rev.5.4_03 S-8261 Series 7  Absolute Maximum Ratings Table 5 (Ta  25C unless otherwise specified) Item Symbol Applied pin Absolute Maximum Rating Unit Input voltage between VDD and VSS VDS VDD VSS 0.3 to VSS 12 V Input pin voltage for VM VVM VM VDD 28 to VDD 0.3 V Output pin voltage for CO VCO CO VVM 0.3 to VDD0.3 V Output pin voltage for DO VDO DO VSS 0.3 to VDD 0.3 V Power dissipation PD  250 (When not mounted on board) mW 650*1 mW Operating ambient temperature Topr  40 to 85 C Storage temperature Tstg  55 to 125 C *1. When mounted on board [Mounted board] (1) Board size : 114.3 mm  76.2 mm  t1.6 mm (2) Board name : JEDEC STANDARD51-7 Caution The absolute maximum ratings are rated values exceeding which the product could suffer physical damage. These values must therefore not be exceeded under any conditions. (1) When mounted on board (2) When not mounted on board 600 400 0 200 0 50 100 150 500 300 100 700 P o w e r d is si p a tio n (P D ) [m W ] Ambient temperature (Ta) [C] 600 400 0 P ow e r d is si p a tio n ( P D ) [m W ] 200 0 50 100 150 Ambient temperature (Ta) [C] 500 300 100 Figure 3 Power Dissipation of Package

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BATTERY PROTECTION IC FOR 1-CELL PACK S-8261 Series Rev.5.4_03 8  Electrical Characteristics 1. Except Detection Delay Time (25C) Table 6 (Ta  25C unless otherwise specified) Item Symbol Condition Min. Typ. Max. Unit Test Condition Test Circuit DETECTION VOLTAGE Overcharge detection voltage VCU  3.900 V to 4.500 V, 5 mV Step VCU  VCU 0.025 VCU VCU 0.025 V 1 1 Ta  5C to 55C*1 VCU 0.030 VCU VCU 0.030 V 1 1 Overcharge hysteresis voltage VHC  0.1 V to 0.4 V, 50 mV Step VHC  VHC 0.025 VHC VHC 0.025 V 1 1 Overdischarge detection voltage VDL  2.000 V to 3.000 V, 10 mV Step VDL  VDL 0.050 VDL VDL 0.050 V 2 2 Overdischarge hysteresis voltage VHD  0.0 V to 0.7 V, 100 mV Step VHD  VHD 0.050 VHD VHD 0.050 V 2 2 Overcurrent 1 detection voltage VIOV1  0.050 V to 0.300 V, 10 mV Step VIOV1  VIOV1 0.015 VIOV1 VIOV1 0.015 V 3 2 Overcurrent 2 detection voltage VIOV2  0.400 0.500 0.600 V 3 2 Load short-circuiting detection voltage VSHORT  0.900 1.200 1.500 V 3 2 Charger detection voltage VCHA  1.0 0.7 0.4 V 4 2 INPUT VOLTAGE, OPERATION VOLTAGE Operation voltage between VDD and VSS VDSOP1 Internal circuit operating voltage 1.5  8 V   Operation voltage between VDD and VM VDSOP2 Internal circuit operating voltage 1.5  28 V   CURRENT CONSUMPTION (with power-down function) Current consumption in normal operation IOPE VDD  3.5 V, VVM  0 V 1.0 3.5 7.0 A 5 2 Current consumption at power down IPDN VDD  VVM  1.5 V   0.1 A 5 2 CURRENT CONSUMPTION (without power-down function) Current consumption in normal operation IOPE VDD  3.5 V, VVM  0 V 1.0 3.5 7.0 A 5 2 Overdischarge current consumption IOPED VDD  VVM  1.5 V 1.0 3.0 5.5 A 5 2 OUTPUT RESISTANCE CO pin resistance “H” RCOH VCO  3.0 V, VDD  3.5 V, VVM  0 V 2.5 5 10 k 7 4 CO pin resistance “L” RCOL VCO  0.5 V, VDD  4.5 V, VVM  0 V 2.5 5 10 k 7 4 DO pin resistance “H” RDOH VDO  3.0 V, VDD  3.5 V, VVM  0 V 2.5 5 10 k 8 4 DO pin resistance “L” RDOL VDO  0.5 V, VDD  VVM  1.8 V 2.5 5 10 k 8 4 VM INTERNAL RESISTANCE Internal resistance between VM and VDD RVMD VDD  1.8 V, VVM  0 V 100 300 900 k 6 3 Internal resistance between VM and VSS RVMS VDD  3.5 V, VVM  1.0 V 10 20 40 k 6 3 0 V BATTERY CHARGE FUNCTION 0 V battery charge starting charger voltage V0CHA 0 V battery charge “available” 1.2   V 11 2 0 V battery charge inhibition battery voltage V0INH 0 V battery charge “unavailable”   0.5 V 12 2 *1. Since products are not screened at high and low temperatures, the specification for this temperature range is guaranteed by design, not tested in production.

Page 10

BATTERY PROTECTION IC FOR 1-CELL PACK Rev.5.4_03 S-8261 Series 9 2. Except Detection Delay Time (40C to 85C*1) Table 7 (Ta  40C to 85C*1 unless otherwise specified) Item Symbol Condition Min. Typ. Max. Unit Test Condition Test Circuit DETECTION VOLTAGE Overcharge detection voltage VCU  3.900 V to 4.500 V, 5 mV Step VCU  VCU 0.055 VCU VCU 0.040 V 1 1 Overcharge hysteresis voltage VHC  0.1 V to 0.4 V, 50 mV Step VHC  VHC 0.025 VHC VHC 0.025 V 1 1 Overdischarge detection voltage VDL  2.000 V to 3.000 V, 10 mV Step VDL  VDL 0.080 VDL VDL 0.080 V 2 2 Overdischarge hysteresis voltage VHD  0.0 V to 0.7 V, 100 mV Step VHD  VHD 0.050 VHD VHD 0.050 V 2 2 Overcurrent 1 detection voltage VIOV1  0.050 V to 0.300 V, 10 mV Step VIOV1  VIOV1 0.021 VIOV1 VIOV1 0.021 V 3 2 Overcurrent 2 detection voltage VIOV2  0.370 0.500 0.630 V 3 2 Load short-circuiting detection voltage VSHORT  0.700 1.200 1.700 V 3 2 Charger detection voltage VCHA  1.2 0.7 0.2 V 4 2 INPUT VOLTAGE, OPERATION VOLTAGE Operation voltage between VDD and VSS VDSOP1 Internal circuit operating voltage 1.5  8 V   Operation voltage between VDD and VM VDSOP2 Internal circuit operating voltage 1.5  28 V   CURRENT CONSUMPTION (with power-down function) Current consumption in normal operation IOPE VDD  3.5 V, VVM  0 V 0.7 3.5 8.0 A 5 2 Current consumption at power down IPDN VDD  VVM  1.5 V   0.1 A 5 2 CURRENT CONSUMPTION (without power-down function) Current consumption in normal operation IOPE VDD  3.5 V, VVM  0 V 0.7 3.5 8.0 A 5 2 Overdischarge current consumption IOPED VDD  VVM  1.5 V 0.7 3.0 6.0 A 5 2 OUTPUT RESISTANCE CO pin resistance “H” RCOH VCO  3.0 V, VDD  3.5 V, VVM  0 V 1.2 5 15 k 7 4 CO pin resistance “L” RCOL VCO  0.5 V, VDD  4.5 V, VVM  0 V 1.2 5 15 k 7 4 DO pin resistance “H” RDOH VDO  3.0 V, VDD  3.5 V, VVM  0 V 1.2 5 15 k 8 4 DO pin resistance “L” RDOL VDO  0.5 V, VDD  VVM  1.8 V 1.2 5 15 k 8 4 VM INTERNAL RESISTANCE Internal resistance between VM and VDD RVMD VDD  1.8 V, VVM  0 V 78 300 1310 k 6 3 Internal resistance between VM and VSS RVMS VDD  3.5 V, VVM  1.0 V 7.2 20 44 k 6 3 0 V BATTERY CHARGE FUNCTION 0 V battery charge starting charger voltage V0CHA 0 V battery charge “available” 1.7   V 11 2 0 V battery charge inhibition battery voltage V0INH 0 V battery charge “unavailable”   0.3 V 12 2 *1. Since products are not screened at high and low temperatures, the specification for this temperature range is guaranteed by design, not tested in production.

S-8261ACTMD-G4TT2U Reviews

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Riv*****Howe

December 20, 2020

Purchasing from Heisener means the real part is obtained no worried for product quality.

Mar*****Klein

December 19, 2020

Good and works well. What else is there to say about it.

Kai*****eka

December 10, 2020

So far so good. I need to see how they hold up.

Han*****ortes

December 4, 2020

Not messy and easy to handle. I've used these professionally and for my self, and they never failed me.

Kash*****Nagy

December 2, 2020

I am a novice technician. I really rely on reviews to help guide me, as I do not have anyone to assist me with electronics. I purchased these items and report I am happy with the purchase. I took a chance and it was one of the better choices I made.

Emili*****ahoney

November 30, 2020

To be honest, you're beating your competitor on delivery - sometimes I request 2nd day and you still get it here overnight. Thanks!

Jayd*****shley

November 25, 2020

It gives you a good quality product, with a great variety.. I will for sure order this set again when i start to run low

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BA6209

IC MOTOR DRIVER PAR HSIP10

B2B-ZR(LF)(SN)

CONN HEADER ZH TOP 2POS 1.5MM

ADUM1401ARWZ

DGTL ISO 2.5KV GEN PURP 16SOIC

DS1624S+

SENSOR TEMPERATURE I2C 8SOIC

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S-8261ACTMD-G4TT2U Tags

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