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XC6120C102HR-G

hotXC6120C102HR-G

XC6120C102HR-G

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Part Number XC6120C102HR-G
Manufacturer Torex Semiconductor Ltd
Description IC SUPERVISOR 1.0V 3-USP
Datasheet XC6120C102HR-G Datasheet
Package 2-SFN Exposed Pad
In Stock 4,200 piece(s)
Unit Price $ 0.1845 *
Lead Time Can Ship Immediately
Estimated Delivery Time Aug 6 - Aug 11 (Choose Expedited Shipping)
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Part Number # XC6120C102HR-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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XC6120C102HR-G Specifications

ManufacturerTorex Semiconductor Ltd
CategoryIntegrated Circuits (ICs) - PMIC - Supervisors
Datasheet XC6120C102HR-GDatasheet
Package2-SFN Exposed Pad
Series-
TypeVoltage Detector
Number of Voltages Monitored1
OutputPush-Pull, Totem Pole
ResetActive Low
Reset Timeout-
Voltage - Threshold1V
Operating Temperature-40°C ~ 85°C (TA)
Mounting TypeSurface Mount
Package / Case2-SFN Exposed Pad
Supplier Device Package3-USP (1.2x1.2)

XC6120C102HR-G Datasheet

Page 1

Page 2

1/15 XC6120 Series Highly Accurate, Ultra Small, Low Power Consumption Voltage Detector XC6120x272xx 0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 0 1 2 3 4 5 6 Input Voltage: VIN (V) S u pp ly C u rr e n t: I S S ( μ A ) Ta= 85℃ 25℃ -40℃ ■GENERAL DESCRIPTION The XC6120 series are highly precise, low power consumption voltage detectors, manufactured using CMOS and laser trimming technologies. With low power consumption and high accuracy, the series is suitable for precision mobile equipment. The XC6120 in ultra small packages are ideally suited for high-density mounting. The XC6120 is available in both CMOS and N-channel open drain output configurations. ■APPLICATIONS ●Microprocessor reset circuitry ●Memory battery back-up circuits ●Power-on reset circuits ●Power failure detection ●System battery life and charge voltage monitors ■TYPICAL APPLICATION CIRCUIT ■ TYPICAL PERFORMANCE CHARACTERISTICS ●Supply Current vs. Input Voltage ETR0209-010 ■FEATURES Highly Accurate : ± 2% (VDF≧1.5V) : ± 30mV (VDF<1.5V) Low Power Consumption : 0.6μA [VDF=2.7V, VIN=2.97V] Detect Voltage Range : 1.0V ~ 5.0V (0.1V increments) Operating Voltage Range : 0.7V ~ 6.0V Detect Voltage Temperature Characteristics : ±100ppm/℃ (TYP.) Output Configuration : CMOS (XC6120C) : N-channel open drain (XC6120N) Operating Temperature Range : -40℃~85℃ Packages : USP-3, SSOT-24, SOT-25 Environmentally Friendly : EU RoHS Compliant, Pb Free S up pl y C ur re nt : I S S ( μ A ) (Unused for the CMOS output products)

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2/15 XC6120 Series 1 32 5 4 VINVOUT VSS SOT-25 (TOP VIEW) NC NC DESIGNATOR ITEM SYMBOL DESCRIPTION ① Output Configuration C CMOS output N N-ch open drain output ②③ Detect Voltage (VDF) 10~50 For example 1.0V → ②1, ③0 ④ Detect Accuracy 2 ±2% ⑤⑥-⑦(*1) Packages (Order Unit) HR USP-3 (3,000/Reel) HR-G USP-3 (3,000/Reel) NR SSOT-24 (3,000/Reel) NR-G SSOT-24 (3,000/Reel) SR-G SOT-25 (3,000/Reel) Standard feed(*2) SL-G SOT-25 (3,000/Reel) Reverse feed(*2) PIN NUMBER PIN NAME FUNCTION USP-3 SSOT-24 SOT-25 1 4 2 VIN Power Input 3 2 3 VSS Ground 2 3 1 VOUT Output (Detect ”Low” ) - 1 4,5 NC No Connection ■PIN CONFIGURATION ■PIN ASSIGNMENT ■PRODUCT CLASSIFICATION ●Ordering Information XC6120①②③④⑤⑥-⑦(*1) SSOT-24 (TOP VIEW) USP-3 (BOTTOM VIEW) VSS VIN VOUT VSS NC VIN VOUT (*1) The “-G” suffix indicates that the products are Halogen and Antimony free as well as being fully RoHS compliant. (*2) Taping Specifications ・SR-G ・SL-G direction of feed direction of feed

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3/15 XC6120 Series PARAMETER SYMBOL RATING UNITS Input Voltage VIN VSS-0.3~7.0 V Output Current IOUT 10 mA Output Voltage CMOS Output VOUT VSS-0.3~VIN+0.3 V N-ch Open Drain Output VSS-0.3~7.0 Power Dissipation USP-3 Pd 120 mW SSOT-24 150 SOT-25 250 Operating Temperature Range Topr -40~+85 ℃ Storage Temperature Range Tstg -55~+125 ℃ ■BLOCK DIAGRAMS ■ABSOLUTE MAXIMUM RATINGS (1) XC6120C (2) XC6120N Ta=25℃

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4/15 XC6120 Series PARAMETER SYMBOL CONDITION MIN. TYP. MAX. UNITS CIRCUIT Operating Voltage VIN VDF(T)=1.0~5.0V (*1) 0.7 - 6.0 V - Detect Voltage VDF VDF(T)=1.0V~5.0V E-1 V ① Hysteresis Width VHYS VDF(T)=1.0V~5.0V VDF × 0.03 VDF × 0.05 VDF × 0.07 V ① Supply Current 1 ISS1 VIN=VDF(T)×1.1 E-2 μA ② Supply Current 2 ISS2 VIN= VDF(T)×0.9 E-3 μA ② Output Current IOUTN VIN=0.7V VOUT=0.5V 0.09 0.57 - mA ③ VOUT=0.3V 0.08 0.56 - VOUT=0.1V 0.05 0.30 - VIN=1.0V VOUT=0.1V, VDF(T)>1.0V 0.46 0.71 - VIN=2.0V VOUT=0.1V, VDF(T)>2.0V 1.15 1.41 - VIN=3.0V VOUT=0.1V, VDF(T)>3.0V 1.44 1.77 - VIN=4.0V VOUT=0.1V, VDF(T)>4.0V 1.61 1.96 - IOUTP (*2) VIN=6.0V VOUT=5.5V - -0.95 -0.60 mA ③ Leakage Current CMOS Output(Pch) ILEAK VIN=VDF×0.9, VOUT=0V - -0.001 - μA ③ N-ch Open Drain VIN=6.0V, VOUT=6.0V - 0.001 0.10 Temperature Characteristics ΔVDF/ (ΔTopr・ VDF) -40 oC≦Topr≦85 oC - ±100 - ppm/oC ① Detect Delay Time (*3) tDF VIN=6.0V→0.7V VIN=VDF to VOUT=0.5V - 30 100 μs ④ Release Delay Time (*5) tDR VIN=0.7V→6.0V VIN=VDR to VOUT=VDR (*4) - 20 100 μs ④ Input Voltage Range Pull-up Resistance 0.7V~6.0V ≧ 220kΩ 0.8V~6.0V ≧ 100kΩ 1.0V~6.0V ≧ 33kΩ ■ELECTRICAL CHARACTERISTICS Ta=25℃XC6120 Series *1: VDF (T): Nominal detect voltage *2: For XC6120C only. *3: A time taking from the time at VIN = VDF to the time at VOUT=0.5V when VIN falls from 6.0V to 0.7V. *4: VDR: Release voltage (VDR = VDF + VHYS) *5: A time taking from the time at VIN = VDR to the time at VOUT = VDR when VIN rise from 0.7V to 6.0V. ●XC6120N recommended pull-up resistance

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5/15 XC6120 Series SYMBOL E-1 E-2 E-3 PARAMETER DETECT VOLTAGE VDF (V) XC6120xxx2 Series SUPPLY CURRENT 1 ISS1 (μA) SUPPLY CURRENT 2 ISS2 (μA) NOMINAL DETECT VOLTAGE VDF(T) MIN. MAX. TYP. MAX. TYP. MAX. 1.0 0.970 1.030 0.5 1.4 0.4 1.35 1.1 1.070 1.130 1.2 1.170 1.230 1.3 1.270 1.330 1.4 1.370 1.430 1.5 1.470 1.530 1.6 1.568 1.632 1.7 1.666 1.734 1.8 1.764 1.836 1.9 1.862 1.938 2.0 1.960 2.040 0.6 1.7 0.5 1.60 2.1 2.058 2.142 2.2 2.156 2.244 2.3 2.254 2.346 2.4 2.352 2.448 2.5 2.450 2.550 2.6 2.548 2.652 2.7 2.646 2.754 2.8 2.744 2.856 0.7 1.9 0.6 1.80 2.9 2.842 2.958 3.0 2.940 3.060 3.1 3.038 3.162 3.2 3.136 3.264 3.3 3.234 3.366 3.4 3.332 3.468 3.5 3.430 3.570 3.6 3.528 3.672 3.7 3.626 3.774 3.8 3.724 3.876 3.9 3.822 3.978 4.0 3.920 4.080 4.1 4.018 4.182 4.2 4.116 4.284 4.3 4.214 4.386 4.4 4.312 4.488 4.5 4.410 4.590 4.6 4.508 4.692 4.7 4.606 4.794 4.8 4.704 4.896 4.9 4.802 4.998 5.0 4.900 5.100 ● DETECT VOLTAGE ACCURACY AND SUPPLY CURRENT SPECIFICATIONS (※6 )When detect voltage is 1.0V≦VDF(T)<1.5V, detect accuracy is ±30mV. When detect voltage is 1.5V≦VDF(T)≦5.0V, detect accuracy is ±2%. ■ELECTRICAL CHARACTERISTICS (Continued)

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6/15 XC6120 Series ■TEST CIRCUITS Circuit 1 Circuit 2 Circuit 3 Circuit 4 RPULL=100kΩ (Unused for the CMOS output products) Measurement of waveform RPULL=100kΩ (Unused for the CMOS output products)

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7/15 XC6120 Series ■OPERATIONAL EXPLANATION The following explains the operation of the typical application circuit along number symbols shown in the timing chart. ① When input voltage (VIN) is higher than detect voltage (VDF), output voltage (VOUT) will be equal to input voltage (VIN). (A condition of high impedance exists with N-ch open drain output configurations.) ② When input voltage (VIN) falls below detect voltage (VDF), output voltage (VOUT) will be equal to the ground voltage (VSS) level. ③ When input voltage (VIN) falls to a level below that of the minimum operating voltage (VMIN), output will become unstable. If In this condition, VIN will equal the pulled-up output (should output be pulled-up.) (Input voltage, VIN, in the typical application circuit.) ④ When input voltage (VIN) rises above the minimum operating voltage (VMIN) level until it achieves a release voltage (VDR), output keeps the ground voltage level (VSS). ⑤ When the input voltage (VIN) rises above the release voltage (VDR), output voltage (VOUT will be equal to input voltage (VIN). (A condition of high impedance exists with N-ch open drain output configurations.) ⑥ The difference between VDR and VDF represents the hysteresis width. ●Timing Charge ●Typical Application Circuit Note: For explaining in a simplified case, an operation time of the circuit is not counted. VIN VSS VOUT VIN VOUT RPULL (Unused for the CMOS output products) Input Voltage (VIN) Output Voltage (VOUT) Release Voltage (VDR) Detect Voltage (VDF) Minimum Operating Voltage (VMIN) Ground Voltage (VSS) Ground Voltage (VSS) ① ② ④③ ⑤ ⑥

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8/15 XC6120 Series [Figure 1: Circuit connected with the input resistor] ● Oscillation Description [Figure 2: Oscillation caused by the input resistor of the CMOS output product and the output current] ■NOTE ON USE 1. Please use this IC within the stated maximum ratings. For temporary, transitional voltage drop or voltage rising phenomenon, the IC is liable to malfunction should the ratings be exceeded. 2. In order to stabilize the IC's operations, please ensure that VIN pin's input frequency's rise and fall times are more than several μs / V. 3. With a resistor connected between the VIN pin and the power supply VDD some errors may be observed from the input voltage at the detect and release voltage. Those errors are not constant because of the fluctuation of the supply current. 4. When a resistor is connected between the VIN pin and the power supply VDD, oscillation may occur as a result of through current and voltage drop at the RIN at the time of voltage release. (refer to the Oscillation Description (1) below ) Especially in the CMOS output configurations, oscillation may occur regardless of detect/release operation if load current (IOUT) exists. (refer to the Oscillation Description (2) below) 5. Please use N-ch open drains configuration, when a resistor RIN is connected between the VIN pin and the power supply VDD power source. In such cases, please ensure that RIN is less than 10kΩ and that C is more than 0.1μF. 6. Torex places an importance on improving our products and its reliability. However, by any possibility, we would request user fail-safe design and post-aging treatment on system or equipment. (1) Oscillation as a result of through current Since the XC6120 series are CMOS ICs, transient through current will flow when the IC's internal circuit switching operates regardless of output configuration. Consequently, oscillation is liable to occur as a result of the similar operations as in (1) above. This oscillation does not occur during the detect operation. (2) Output current oscillation with the CMOS output configuration As shown in figure 2, when the voltage applied at the power supply (VDD) rises from below detect voltage to above release voltage, the IC commence release operations and the internal P-ch driver transistor will be on. The output current (IOUT) flows the input resistor (RIN) via the P-ch driver transistor. Because of the input resistor (RIN) and the output current (IOUT), an input pin voltage drops RIN x IOUT. If the voltage drop level is larger than the IC’s hysteresis width (VHYS), the input pin voltage will falls below the VDF and detect operations will commerce so that the internal P-ch driver transistor will be off. The voltage drop will stop because the output current (IOUT) which was flowing the P-ch driver transistor will run down. The input pin voltage will become the same voltage level as the input voltage (VIN). For this, the input pin voltage will rise above the release voltage (VDR), therefore, the release operations will begin over again. Oscillation may occur with this repetition. Further, this condition will also appear via means of a similar mechanism during detect operations. XC6120N XC6120C VPULL RPULL

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9/15 XC6120 Series ■TYPICAL PERFORMANCE CHARACTERISTICS (1) Supply Current vs. Input Voltage XC6120x102xx 0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 0 1 2 3 4 5 6 Input Voltage: VIN (V) S u pp ly C u rr e n t: I S S ( μ A ) Ta= 85℃ 25℃ -40℃ XC6120x502xx 0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 0 1 2 3 4 5 6 Input Voltage: VIN (V) S u pp ly C u rr e n t: I S S ( μ A ) Ta= 85℃ 25℃ -40℃ (2) Output Voltage vs. Input Voltage (3) Detect Voltage, Release Voltage vs. Ambient Temperature XC6120x102xx 0.90 0.95 1.00 1.05 1.10 1.15 1.20 -50 -25 0 25 50 75 100 Ambient Temperature: Ta (℃) D e te c t V o lt ag e : V D F ( V ) 0.90 0.95 1.00 1.05 1.10 1.15 1.20 R e le as e V o lt ag e : V D R ( V ) VDR VDF XC6120x202xx 1.8 1.9 2.0 2.1 2.2 2.3 2.4 -50 -25 0 25 50 75 100 Ambient Temperature: Ta (℃) D e te c t V o lt ag e : V D F ( V ) 1.8 1.9 2.0 2.1 2.2 2.3 2.4 R e le as e V o lt ag e : V D R ( V ) VDR VDF XC6120C202xx 0 1 2 3 4 5 6 0 1 2 3 4 5 6 Input Voltage: VIN (V) O u tp u t V o lt ag e : V O U T ( V ) Ta= 25℃ XC6120N202xx 0 1 2 3 4 5 6 7 0.0 0.5 1.0 1.5 2.0 2.5 3.0 Input Voltage: VIN (V) O u tp u t V o lt ag e : V O U T ( V ) Ta= 85℃ Vpull-up=6V Rpull-up=100kΩ 25℃ -50℃

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