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XC6108N28AGR-G

XC6108N28AGR-G

XC6108N28AGR-G

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Part Number XC6108N28AGR-G
Manufacturer Torex Semiconductor Ltd
Description IC SUPERVISOR 2.8V 4-USP
Datasheet XC6108N28AGR-G Datasheet
Package 4-UDFN Exposed Pad
In Stock 390 piece(s)
Unit Price Request a Quote
Lead Time To be Confirmed
Estimated Delivery Time Jul 11 - Jul 16 (Choose Expedited Shipping)
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Part Number # XC6108N28AGR-G (PMIC - Supervisors) is manufactured by Torex Semiconductor Ltd 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.

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XC6108N28AGR-G Specifications

ManufacturerTorex Semiconductor Ltd
CategoryIntegrated Circuits (ICs) - PMIC - Supervisors
Datasheet XC6108N28AGR-GDatasheet
Package4-UDFN Exposed Pad
Series-
TypeVoltage Detector
Number of Voltages Monitored1
OutputOpen Drain or Open Collector
ResetActive Low
Reset Timeout-
Voltage - Threshold2.8V
Operating Temperature-40°C ~ 85°C (TA)
Mounting TypeSurface Mount
Package / Case4-UDFN Exposed Pad
Supplier Device Package4-USP (1.2x1.6)

XC6108N28AGR-G Datasheet

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Page 2

1/22 XC6108 Series Voltage Detector with Separated Sense Pin & Delay Capacitor Pin ■GENERAL DESCRIPTION The XC6108 series is highly precise, low power consumption voltage detector, manufactured using CMOS and laser trimming technologies. Since the sense pin is separated from power supply, it allows the IC to monitor added power supply. Using the IC with the sense pin separated from power supply enables output to maintain the state of detection even when voltage of the monitored power supply drops to 0V. Moreover, with the built-in delay circuit, connecting the delay capacitance pin to the capacitor enables the IC to provide an arbitrary release delay time. Both CMOS and N-channel open drain output configurations are available. ■APPLICATIONS ●Microprocessor reset circuitry ●Charge voltage monitors ●Memory battery back-up switch circuits ●Power failure detection circuits ■FEATURES Highly Accurate : +2% (Detect Voltage≧1.5V) +30mV (Detect Voltage<1.5V) Low Power Consumption : 0.6 μA TYP. (detect, VIN= 1.0V ) 0.8 μA TYP. (release, VIN= 1.0V ) Detect Voltage Range : 0.8V ~ 5.0V in 0.1V increments Operating Voltage Range : 1.0V ~ 6.0V Temperature Stability : ±100ppm/ ℃ TYP. Output Configuration : CMOS or N-channel open drain Operating Temperature : -40 ℃ ~ +85 ℃ Separated Sense Pin : VSEN Pin Available Built-In Delay Circuit : Delay Time Adjustable Packages : USP-4, SOT-25 Environmentally Friendly : EU RoHS Compliant, Pb Free ■TYPICAL APPLICATION CIRCUIT ■TYPICAL PERFORMANCE CHARACTERISTICS ●Output Voltage vs. Sense Voltage XC6108C25AGR -1.0 0.0 1.0 2.0 3.0 4.0 5.0 6.0 7.0 0 1 2 3 4 5 6 Sense Voltage: VSEN (V) O ut pu t V ol ta ge : V O U T ( V ) Ta=25℃ 4.0V 1.0V VIN=6.0V ETR0205_010a O ut pu t V ol ta ge : V O U T ( V ) Sense Voltage: VSEN (V) (No Pull-Up resistor needed for CMOS output product) Monitering Power supply

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2/22 XC6108 Series *When delay function isn’t used, open the delay capacitance pin before use. PIN NUMBER USP- 4 SOT-25 PIN NAME FUNCTION 1 1 VOUT Output (Detect ”L”) 2 5 Cd Delay Capacitance (*1) 2 - NC No Connection 3 4 VSEN Sense 4 3 VIN Input 5 2 VSS Ground (*2) DESIGNATOR DESCRIPTION SYMBOL DESCRIPTION C CMOS output ① Output Configuration N N-ch open drain output ②③ Detect Voltage 08 ~ 50 e.g. 18→1.8V A Built-in delay capacitance pin, hysteresis 5% (TYP.)(Standard*) B Built-in delay capacitance pin, hysteresis less than 1%(Standard*) C No built-in delay capacitance pin, hysteresis 5% (TYP.) (Semi-custom) ④ Output Delay & Hysteresis (Options) D No built-in delay capacitance pin, hysteresis less than 1% (Semi-custom) GR USP-4 GR-G USP-4 MR SOT-25 ⑤⑥-⑦ Packages Taping Type (*2) MR-G SOT-25 ■PIN CONFIGURATION ■PIN ASSIGNMENT ■PRODUCT CLASSIFICATION XC6108 ①②③④⑤⑥-⑦(*1) NOTE: *1: With the VSS pin of the USP-4 package, a tab on the backside is used as the pin No.5. *2: In the case of selecting no built-in delay capacitance pin type, the delay capacitance (Cd) pin will be used as the N.C. 1 2 3 45 Cd VOUT VIN VSEN VSS USP-4 (BOTTOM VIEW) SOT-25 (TOP VIEW) * In the XC6108xxxA/B series, the dissipation pad should not be short-circuited with other pins. * In the XC6108xxxC/D series, when the dissipation pad is short-circuited with other pins, connect it to the NC pin (No.2) pin before use. ●Ordering Information (*1) The “-G” suffix indicates that the products are Halogen and Antimony free as well as being fully RoHS compliant. (*2) The device orientation is fixed in its embossed tape pocket. For reverse orientation, please contact your local Torex sales office or representative. (Standard orientation: ⑤R-⑦, Reverse orientation: ⑤L-⑦)

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3/22 XC6108 Series ■BLOCK DIAGRAMS (1) XC6108CxxA (2) XC6108CxxB (3) XC6108NxxA (4) XC6108NxxB *The delay capacitance pin (Cd) is not connected to the circuit in the block diagram of XC6108CxxC (semi-custom). *The delay capacitance pin (Cd) is not connected to the circuit in the block diagram of XC6108CxxD (semi-custom). *The delay capacitance pin (Cd) is not connected to the circuit in the block diagram of XC6108NxxC (semi-custom). *The delay capacitance pin (Cd) is not connected to the circuit in the block diagram of XC6108NxxD (semi-custom).

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4/22 XC6108 Series PARAMETER SYMBOL RATINGS UNITS Input Voltage VIN VSS-0.3 ~ 7.0 V Output Current IOUT 10 mA XC6108C (*1) VSS-0.3 ~ VIN+0.3 Output Voltage XC6108N (*2) VOUT VSS-0.3 ~ 7.0 V Sense Pin Voltage VSEN VSS-0.3 ~ 7.0 V Delay Capacitance Pin Voltage VCD VSS-0.3 ~ VIN+0.3 V Delay Capacitance Pin Current ICD 5.0 mA USP-4 120 Power Dissipation SOT-25 Pd 250 mW Operating Temperature Range Ta -40 ~+85 ℃ Storage Temperature Range Tstg -55 ~+125 ℃ PARAMETER SYMBOL RATINGS UNITS Input Voltage VIN VSS-0.3 ~ 7.0 V Output Current IOUT 10 mA XC6108C (*1) VSS-0.3 ~ VIN+0.3 Output Voltage XC6108N (*2) VOUT VSS-0.3 ~ 7.0 V Sense Pin Voltage VSEN VSS-0.3 ~ 7.0 V USP-4 120 Power Dissipation SOT-25 Pd 250 mW Operating Temperature Range Ta -40 ~+85 ℃ Storage Temperature Range Tstg -55 ~+125 ℃ ■ABSOLUTE MAXIMUM RATINGS ●XC6108xxxA/B Ta = 25OC ●XC6108xxxC/D NOTE: *1: CMOS output *2: N-ch open drain output Ta = 25OC

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5/22 XC6108 Series PARAMETER SYMBOL CONDITIONS MIN. TYP. MAX. UNITS CIRCUITS Operating Voltage VIN VDF(T) = 0.8 ~ 5.0V (*1) 1.0 - 6.0 V - Detect Voltage VDF VIN = 1.0 ~ 6.0V E-1 V ① Hysteresis Width VHYS VIN = 1.0 ~ 6.0V E-2 V ① Detect Voltage Line Regulation ΔVDF / (ΔVIN・VDF) VIN = 1.0 ~ 6.0V - ±0.1 - %/V ① VIN = 1.0V - 0.6 1.5 Supply Current 1 (*2) ISS1 VSEN = VDF x 0.9 VIN = 6.0V - 0.7 1.6 μA ② VIN = 1.0V - 0.8 1.7 Supply Current 2 (*2) ISS2 VSEN = VDF x 1.1 VIN = 6.0V - 0.9 1.8 μA ② VIN = 1.0V 0.1 0.7 VIN = 2.0V 0.8 1.6 VIN = 3.0V 1.2 2.0 VIN = 4.0V 1.6 2.3 VIN = 5.0V 1.8 2.4 IOUT1 VSEN =0V VDS = 0.5V (N-ch) VIN = 6.0V 1.9 2.5 - mA ③ VIN = 1.0V - -0.30 -0.08 Output Current (*3) IOUT2 VSEN = 6.0V VDS = 0.5V (P-ch) VIN = 6.0V - -2.00 -0.70 mA ④ CMOS Output 0.20 - Leakage Current Nch Open Drain Output ILEAK VIN=6.0V, VSEN=6.0V, VOUT=6.0V, Cd: Open - 0.20 0.40 μA ③ Temperature Characteristics ΔVDF / (ΔTopr・VDF) -40 ℃ ≦ Ta ≦ 85℃ - ±100 - ppm/ ℃ ① Sense Resistance (*4) RSEN VSEN = 5.0V, VIN = 0V E-4 MΩ ⑤ Delay Resistance (*5) Rdelay VSEN = 6.0V, VIN = 5.0V, Cd = 0V 1.6 2.0 2.4 MΩ ⑥ Delay capacitance pin Sink Current ICD VDS = 0.5V, VIN = 1.0V - 200 - μA ⑥ VSEN = 6.0V, VIN = 1.0V 0.4 0.5 0.6 Delay Capacitance Pin Threshold Voltage VTCD VSEN = 6.0V, VIN = 6.0V 2.9 3.0 3.1 V ⑦ Unspecified Operating Voltage (*6) VUNS VIN = VSEN = 0V ~ 1.0V - 0.3 0.4 V ⑧ Detect Delay Time (*7) tDF0 VIN = 6.0V, VSEN = 6.0V→ 0.0V Cd: Open 30 230 μs ⑨ Release Delay Time (*8) tDR0 VIN = 6.0V, VSEN = 0.0V→ 6.0V Cd: Open 30 200 μs ⑨ NOTE: *1: VDF(T): Nominal detect voltage *2: Current flows the sense resistor is not included. *3: The Pch values are applied only to the XC6108C series (CMOS output). *4: Calculated from the voltage value and the current value of the VSEN. *5: Calculated from the voltage value of the VIN and the current value of the Cd. *6: The maximum voltage of the VOUT in the range of the VIN 0V to 1.0V when the VIN and the VSEN are short-circuited This value is applied only to the XC6108C series (CMOS output). *7: Time which ranges from the state of VSEN=VDF to the VOUT reaching 0.6V when the VSEN falls without connecting to the Cd pin. *8: Time which ranges from the state of VIN= VDF +VHYS to the VOUT reaching 5.4V when the VSEN rises without connecting to the Cd pin. ■ELECTRICAL CHARACTERISTICS ●XC6108xxxA Ta=25℃

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6/22 XC6108 Series PARAMETER SYMBOL CONDITIONS MIN. TYP. MAX. UNITS CIRCUITS Operating Voltage VIN VDF(T) = 0.8 ~ 5.0V (*1) 1.0 - 6.0 V - Detect Voltage VDF VIN = 1.0 ~ 6.0V E-1 V ① Hysteresis Width VHYS VIN = 1.0 ~ 6.0V E-3 V ① Detect Voltage Line Regulation ΔVDF / (ΔVIN・VDF) VIN = 1.0 ~ 6.0V - ±0.1 - %/V ① VIN = 1.0V - 0.6 1.5 Supply Current 1 (*2) ISS1 VSEN = VDF x 0.9 VIN = 6.0V - 0.7 1.6 μA ② VIN = 1.0V - 0.8 1.7 Supply Current 2 (*2) ISS2 VSEN = VDF x 1.1 VIN = 6.0V - 0.9 1.8 μA ② VIN = 1.0V 0.1 0.7 - VIN = 2.0V 0.8 1.6 VIN = 3.0V 1.2 2.0 VIN = 4.0V 1.6 2.3 VIN = 5.0V 1.8 2.4 IOUT1 VSEN =0V VDS = 0.5V (N-ch) VIN = 6.0V 1.9 2.5 - mA ③ VIN = 1.0V - -0.30 -0.08 Output Current (*3) IOUT2 VSEN = 6.0V VDS = 0.5V (P-ch) VIN = 6.0V - -2.00 -0.70 mA ④ CMOS Output 0.20 - Leakage Current Nch Open Drain Output ILEAK VIN=6.0V, VSEN=6.0V, VOUT=6.0V, Cd: Open - 0.20 0.40 μA ③ Temperature Characteristics ΔVDF / (ΔTopr・VDF) -40 ℃ ≦ Ta ≦ 85℃ - ±100 - ppm/ ℃ ① Sense Resistance (*4) RSEN VSEN = 5.0V, VIN = 0V E-4 MΩ ⑤ Delay Resistance (*5) Rdelay VSEN = 6.0V, VIN = 5.0V, Cd = 0V 1.6 2.0 2.4 MΩ ⑥ Delay capacitance pin Sink Current ICD VDS = 0.5V, VIN = 1.0V - 200 - μA ⑥ VSEN = 6.0V, VIN = 1.0V 0.4 0.5 0.6 Delay Capacitance Pin Threshold Voltage VTCD VSEN = 6.0V, VIN = 6.0V 2.9 3.0 3.1 V ⑦ Unspecified Operating Voltage (*6) VUNS VIN = VSEN = 0V ~ 1.0V - 0.3 0.4 V ⑧ Detect Delay Time (*7) tDF0 VIN = 6.0V, VSEN = 6.0V→ 0.0V Cd: Open 30 230 μs ⑨ Release Delay Time (*8) tDR0 VIN = 6.0V, VSEN = 0.0V→ 6.0V Cd: Open 30 200 μs ⑨ ■ELECTRICAL CHARACTERISTICS (Continued) ●XC6108xxxB Ta=25℃ NOTE: *1: VDF(T): Nominal detect voltage *2: Current flows the sense resistor is not included. *3: The Pch values are applied only to the XC6108C series (CMOS output). *4: Calculated from the voltage value and the current value of the VSEN. *5: Calculated from the voltage value of the VIN and the current value of the Cd. *6: The maximum voltage of the VOUT in the range of the VIN 0V to 1.0V when the VIN and the VSEN are short-circuited This value is applied only to the XC6108C series (CMOS output). *7: Time which ranges from the state of VSEN=VDF to the VOUT reaching 0.6V when the VSEN falls without connecting to the Cd pin. *8: Time which ranges from the state of VIN= VDF +VHYS to the VOUT reaching 5.4V when the VSEN rises without connecting to the Cd pin.

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7/22 XC6108 Series PARAMETER SYMBOL CONDITIONS MIN. TYP. MAX. UNITS CIRCUITS Operating Voltage VIN VDF(T) = 0.8 ~ 5.0V (*1) 1.0 - 6.0 V - Detect Voltage VDF VIN = 1.0 ~ 6.0V E-1 V ① Hysteresis Width VHYS VIN = 1.0 ~ 6.0V E-2 V ① Detect Voltage Line Regulation ΔVDF / (ΔVIN・VDF) VIN = 1.0 ~ 6.0V - ±0.1 - %/V ① VIN = 1.0V - 0.6 1.5 Supply Current 1 (*2) ISS1 VSEN = VDF x 0.9 VIN = 6.0V - 0.7 1.6 μA ② VIN = 1.0V - 0.8 1.7 Supply Current 2 (*2) ISS2 VSEN = VDF x 1.1 VIN = 6.0V - 0.9 1.8 μA ② VIN = 1.0V 0.1 0.7 VIN = 2.0V 0.8 1.6 VIN = 3.0V 1.2 2.0 VIN = 4.0V 1.6 2.3 VIN = 5.0V 1.8 2.4 IOUT1 VSEN =0V VDS = 0.5V (N-ch) VIN = 6.0V 1.9 2.5 - mA ③ VIN = 1.0V - -0.30 -0.08 Output Current (*3) IOUT2 VSEN = 6.0V VDS = 0.5V (P-ch) VIN = 6.0V - -2.00 -0.70 mA ④ CMOS Output 0.20 - Leakage Current Nch Open Drain Output ILEAK VIN=6.0V, VSEN=6.0V, VOUT=6.0V, Cd: Open - 0.20 0.40 μA ③ Temperature Characteristics ΔVDF/ (ΔTopr・VDF) -40 ℃ ≦ Ta ≦ 85℃ - ±100 - ppm/ ℃ ① Sense Resistance (*4) RSEN VSEN = 5.0V, VIN = 0V E-4 MΩ ⑤ Unspecified Operating Voltage (*5) VUNS VIN = VSEN = 0V ~ 1.0V - 0.3 0.4 V ⑦ Detect Delay Time (*6) tDF0 VIN = 6.0V, VSEN = 6.0V→ 0.0V 30 230 μs ⑨ Release Delay Time (*7) tDR0 VIN = 6.0V, VSEN = 0.0V→ 6.0V 30 200 μs ⑨ ■ELECTRICAL CHARACTERISTICS (Continued) ●XC6108xxxC Ta=25℃ NOTE: *1: VDF(T): Nominal detect voltage *2: Current flows the sense resistor is not included. *3: The Pch values are applied only to the XC6108C series (CMOS output). *4: Calculated from the voltage value and the current value of the VSEN. *5: The maximum voltage of the VOUT in the range of the VIN 0V to 1.0V when the VIN and the VSEN are short-circuited This value is applied only to the XC6108C series (CMOS output). *6: Time which ranges from the state of VSEN=VDF to the VOUT reaching 0.6V when the VSEN falls. *7: Time which ranges from the state of VIN= VDF +VHYS to the VOUT reaching 5.4V when the VSEN rises.

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8/22 XC6108 Series PARAMETER SYMBOL CONDITIONS MIN. TYP. MAX. UNITS CIRCUITS Operating Voltage VIN VDF(T) = 0.8 ~ 5.0V (*1) 1.0 - 6.0 V - Detect Voltage VDF VIN = 1.0 ~ 6.0V E-1 V 1 Hysteresis Width VHYS1 VIN = 1.0 ~ 6.0V E-3 V 1 Detect Voltage Line Regulation ΔVDF / (ΔVIN・VDF) VIN = 1.0 ~ 6.0V - ±0.1 - %/V 1 VIN = 1.0V - 0.6 1.5 Supply Current 1 (*2) ISS1 VSEN = VDF x 0.9 VIN = 6.0V - 0.7 1.6 μA 2 VIN = 1.0V - 0.8 1.7 Supply Current 2 (*2) ISS2 VSEN = VDF x 1.1 VIN = 6.0V - 0.9 1.8 μA 2 VIN = 1.0V 0.1 0.7 VIN = 2.0V 0.8 1.6 VIN = 3.0V 1.2 2.0 VIN = 4.0V 1.6 2.3 VIN = 5.0V 1.8 2.4 IOUT1 VSEN =0V VDS = 0.5V (N-ch) VIN = 6.0V 1.9 2.5 - mA 3 VIN = 1.0V - -0.30 -0.08 Output Current (*3) IOUT2 VSEN = 6.0V VDS = 0.5V (P-ch) VIN = 6.0V - -2.00 -0.70 mA 4 CMOS Output 0.20 - Leakage Current Nch Open Drain Output ILEAK VIN=6.0V, VSEN=6.0V, VOUT=6.0V, Cd: Open - 0.20 0.40 μA 3 Temperature Characteristics ΔVDF / (ΔTopr・VDF) -40 ℃ ≦ Ta ≦ 85℃ - ±100 - ppm/ ℃ 1 Sense Resistance (*4) RSEN VSEN = 5.0V, VIN = 0V E-4 MΩ 5 Unspecified Operating Voltage (*5) VUNS VIN = VSEN = 0V ~ 1.0V - 0.3 0.4 V 7 Detect Delay Time (*6) tDF0 VIN = 6.0V, VSEN = 6.0V→ 0.0V 30 230 μs 9 Release Delay Time (*7) tDR0 VIN = 6.0V, VSEN = 0.0V→ 6.0V 30 200 μs 9 ■ELECTRICAL CHARACTERISTICS (Continued) ●XC6108xxxD Ta=25℃ NOTE: *1: VDF(T): Nominal detect voltage *2: Current flows the sense resistor is not included. *3: The Pch values are applied only to the XC6108C series (CMOS output). *4: Calculated from the voltage value and the current value of the VSEN. *5: The maximum voltage of the VOUT in the range of the VIN 0V to 1.0V when the VIN and the VSEN are short-circuited This value is applied only to the XC6108C series (CMOS output). *6: Time which ranges from the state of VSEN=VDF to the VOUT reaching 0.6V when the VSEN falls. *7: Time which ranges from the state of VIN= VDF +VHYS to the VOUT reaching 5.4V when the VSEN rises.

Page 10

9/22 XC6108 Series SYMBOL E-1 E-2 E-3 E-4 NOMINAL DETECT VOLTAGE DETECT VOLTAGE (*1) (V) HYSTERESIS RANGE (V) HYSTERESIS RANGE (V) SENSE RESISTANCE (MΩ) VDF VHYS VHYS RSEN VDF(T) (V) MIN. MAX. MIN. MAX. MIN. MAX. MIN. TYP. 0.8 0.770 0.830 0.015 0.066 0.008 0.9 0.870 0.930 0.017 0.074 0.009 1.0 0.970 1.030 0.019 0.082 0.010 1.1 1.070 1.130 0.021 0.090 0.011 1.2 1.170 1.230 0.023 0.098 0.012 1.3 1.270 1.330 0.025 0.106 0.013 1.4 1.370 1.430 0.027 0.114 0.014 1.5 1.470 1.530 0.029 0.122 0.015 1.6 1.568 1.632 0.031 0.131 0.016 1.7 1.666 1.734 0.033 0.085 0.017 1.8 1.764 1.836 0.035 0.147 0.018 1.9 1.862 1.938 0.037 0.155 0.019 10 20 2.0 1.960 2.040 0.039 0.163 0.020 2.1 2.058 2.142 0.041 0.171 0.021 2.2 2.156 2.244 0.043 0.180 0.022 2.3 2.254 2.346 0.045 0.188 0.023 2.4 2.352 2.448 0.047 0.196 0.024 2.5 2.450 2.550 0.049 0.204 0.026 2.6 2.548 2.652 0.051 0.212 0.027 2.7 2.646 2.754 0.053 0.220 0.028 2.8 2.744 2.856 0.055 0.228 0.029 2.9 2.842 2.958 0.057 0.237 0.030 3.0 2.940 3.060 0.059 0.245 0.031 3.1 3.038 3.162 0.061 0.253 0.032 3.2 3.136 3.264 0.063 0.261 0.033 3.3 3.234 3.366 0.065 0.269 0.034 3.4 3.332 3.468 0.067 0.277 0.035 3.5 3.430 3.570 0.069 0.286 0.036 3.6 3.528 3.672 0.071 0.294 0.037 3.7 3.626 3.774 0.073 0.302 0.038 3.8 3.724 3.876 0.074 0.310 0.039 3.9 3.822 3.978 0.076 0.318 0.040 13 24 4.0 3.920 4.080 0.078 0.326 0.041 4.1 4.018 4.182 0.080 0.335 0.042 4.2 4.116 4.284 0.082 0.343 0.043 4.3 4.214 4.386 0.084 0.351 0.044 4.4 4.312 4.488 0.086 0.359 0.045 4.5 4.410 4.590 0.088 0.367 0.046 4.6 4.508 4.692 0.090 0.375 0.047 4.7 4.606 4.794 0.092 0.384 0.048 4.8 4.704 4.896 0.094 0.392 0.049 4.9 4.802 4.998 0.096 0.400 0.050 5.0 4.900 5.100 0.098 0.408 0 0.051 15 28 ■VOLTAGE CHART NOTE: *1: When VDF(T)≦1.4V, the detection accuracy is ±30mV. When VDF(T)≧1.5V, the detection accuracy is ±2%.

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Karl*****eming

June 28, 2020

No problem in making an order and will see how the shipping goes.

Donov*****ancis

June 27, 2020

It fit exactly in the same location as the original. Works great and no problem. Good purchase.

Lyl*****asu

June 11, 2020

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

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June 8, 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!

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June 1, 2020

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Ezequ*****ueller

May 31, 2020

These were delivered very quickly and are fantastic selection of products.

Marsh*****hhabra

May 28, 2020

Most of the reviews for this product were positive so I took a chance.

Amiy*****iley

May 25, 2020

These are a great value at this price.

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May 18, 2020

Great website. Well organized and easy to search products.

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May 14, 2020

Comparison with other company, Heisener is my first choice for supplier.

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XC6108N28AGR-G

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

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