HT70xxA-2 TinyPowerTM Voltage Detector Features · Low power consumption · Output voltage accuracy: tolerance ± 1% · Low temperature coefficient · Built-in hysteresis characteristic · High input voltage range (up to 24V) · TO92, SOT89 and SOT23-5 package Applications · Battery checkers · Microcomputer reset · Level selectors · Battery memory backup · Power failure detectors · Non-volatile RAM signal storage protectors General Description The HT70xxA-2 series devices area set of three terminal low power voltage detectors implemented in CMOS technology. Each voltage detector in the series detects a particular fixed voltage ranging from 2.2V to 8.2V. The voltage detectors consist of a high-precision and low power consumption standard voltage source as well as a comparator, hysteresis circuit, and an output driver. CMOS technology ensures low power consumption. Although designed primarily as fixed voltage detectors, these devices can be used with external components to detect user specified threshold voltages. Selection Table Detectable Voltage Hysteresis Width HT7022A-2 2.2V 0.110V HT7024A-2 2.4V 0.120V HT7027A-2 2.7V 0.135V HT7033A-2 3.3V 0.165V HT7039A-2 3.9V 0.195V HT7044A-2 4.4V 0.220V HT7050A-2 5.0V 0.250V HT7082A-2 8.2V 0.410V Part No. Note: Tolerance ±1% Package TO92 SOT89 SOT23-5 Marking 70xxA-2 (for TO92) 70xxA-2# (for SOT89) 70xxA-2+ (for SOT89) xxA2# (for SOT23-5) xxA2+ (for SOT23-5) ²xx² stands for output voltages. Both lead free and green compound devices are available. Note the symbol marks below: ²#² stands for lead free devices. ²+² stands for green compound devices, which are Lead-free and Halogen-free. For the TO92 package, the symbol mark will be at the end of the date code. Whereas for the SOT89 and SOT23-5, the symbol mask will be located at the end of IC marking. Rev. 1.20 1 December 14, 2012 HT70xxA-2 Block Diagram N Channel Open Drain Output (Normal Open; Active Low) V O U T V D D V R E F G N D Output Table & Curve V VDD VDD>VDET(+) VDD£VDET(-) VOUT Hi-Z VSS O U T D a s h lin e ... V S o lid lin e ... V V V D E T V D E T ´ 1 .0 5 V IN IN fro m L fro m H O I ® ® L H I O IN H Y S Pin Assignment T O 9 2 S O T 2 3 -5 S O T 8 9 N C 7 0 x x A -2 N C F r o n t V ie w 7 0 x x A -2 T o p V ie w x x A 2 O U T O U T V D D V D D V S S O U T V D D V S S O U T V D D V S S V S S S id e V ie w O U T Rev. 1.20 V D D V S S 2 December 14, 2012 HT70xxA-2 Absolute Maximum Ratings Supply Voltage .............................................................................................................................VSS-0.3V to VSS+26V Output Voltage ...........................VSS-0.3V to VDD+0.3V Output Current......................................................50mA Storage Temperature ............................-50°C to 125°C Power Consumption ..........................................200mW Operating Temperature ...........................-40°C to 85°C Note: These are stress ratings only. Stresses exceeding the range specified under ²Absolute Maximum Ratings² may cause substantial damage to the device. Functional operation of this device at other conditions beyond those listed in the specification is not implied and prolonged exposure to extreme conditions may affect device reliability. Electrical Characteristics HT7022A-2 Symbol Ta=25°C Parameter Test Conditions VDD Conditions Min. Typ. Max. Unit VDET Detection Voltage ¾ ¾ 2.178 2.200 2.222 V VHYS Hysteresis Width ¾ ¾ 0.02 VDET 0.05 VDET 0.10 VDET V IDD Operating Current 3.2V ¾ 3 6 mA VDD Operating Voltage ¾ 2.1 ¾ 24 V IOL Output Sink Current 2V VOUT=0.2V 0.5 1.0 ¾ mA Temperature Coefficient ¾ -40°C<Ta<85°C ¾ ±100 ¾ ppm D V D D T E T a No load ¾ HT7024A-2 Symbol Ta=25°C Parameter Test Conditions VDD Conditions Min. Typ. Max. Unit VDET Detection Voltage ¾ ¾ 2.376 2.400 2.424 V VHYS Hysteresis Width ¾ ¾ 0.02 VDET 0.05 VDET 0.10 VDET V IDD Operating Current 3.4V ¾ 3 6 mA VDD Operating Voltage ¾ 2.1 ¾ 24 V IOL Output Sink Current 2V VOUT=0.2V 0.5 1.0 ¾ mA Temperature Coefficient ¾ -40°C<Ta<85°C ¾ ±100 ¾ ppm D V D D T E T a Rev. 1.20 No load ¾ 3 December 14, 2012 HT70xxA-2 HT7027A-2 Symbol Ta=25°C Parameter Test Conditions VDD Conditions Min. Typ. Max. Unit VDET Detection Voltage ¾ ¾ 2.673 2.700 2.727 V VHYS Hysteresis Width ¾ ¾ 0.02 VDET 0.05 VDET 0.10 VDET V IDD Operating Current 3.7V ¾ 3 6 mA VDD Operating Voltage ¾ 2.1 ¾ 24 V IOL Output Sink Current 2V VOUT=0.2V 0.5 1.0 ¾ mA Temperature Coefficient ¾ -40°C<Ta<85°C ¾ ±100 ¾ ppm D V D D T E T a No load ¾ HT7033A-2 Symbol Ta=25°C Parameter Test Conditions VDD Conditions Min. Typ. Max. Unit VDET Detection Voltage ¾ ¾ 3.267 3.300 3.333 V VHYS Hysteresis Width ¾ ¾ 0.02 VDET 0.05 VDET 0.10 VDET V IDD Operating Current 4.3V ¾ 3 6 mA VDD Operating Voltage ¾ 2.1 ¾ 24 V IOL Output Sink Current VOUT=0.25V 1.2 2.5 ¾ mA -40°C<Ta<85°C ¾ ±100 ¾ ppm D V D D T E T a Temperature Coefficient No load ¾ 2.5V ¾ HT7039A-2 Symbol Ta=25°C Parameter Test Conditions VDD Conditions Min. Typ. Max. Unit VDET Detection Voltage ¾ ¾ 3.861 3.900 3.939 V VHYS Hysteresis Width ¾ ¾ 0.02 VDET 0.05 VDET 0.10 VDET V IDD Operating Current 4.9V ¾ 3 6 mA VDD Operating Voltage ¾ 2.1 ¾ 24 V IOL Output Sink Current VOUT=0.25V 1.2 2.5 ¾ mA -40°C<Ta<85°C ¾ ±100 ¾ ppm D V D D T E T a Rev. 1.20 Temperature Coefficient 2.5V ¾ No load ¾ 4 December 14, 2012 HT70xxA-2 HT7044A-2 Symbol Ta=25°C Parameter Test Conditions VDD Conditions Min. Typ. Max. Unit VDET Detection Voltage ¾ ¾ 4.356 4.400 4.444 V VHYS Hysteresis Width ¾ ¾ 0.02 VDET 0.05 VDET 0.10 VDET V IDD Operating Current 5.4V ¾ 3 6 mA VDD Operating Voltage ¾ 2.1 ¾ 24 V IOL Output Sink Current VOUT=0.36V 3 6 ¾ mA -40°C<Ta<85°C ¾ ±100 ¾ ppm D V D D T E T a Temperature Coefficient No load ¾ 3.6V ¾ HT7050A-2 Symbol Ta=25°C Parameter Test Conditions VDD Conditions Min. Typ. Max. Unit VDET Detection Voltage ¾ ¾ 4.950 5.000 5.050 V VHYS Hysteresis Width ¾ ¾ 0.02 VDET 0.05 VDET 0.10 VDET V IDD Operating Current 6.0V ¾ 3 6 mA VDD Operating Voltage ¾ 2.1 ¾ 24 V IOL Output Sink Current VOUT=0.36V 3 6 ¾ mA -40°C<Ta<85°C ¾ ±100 ¾ ppm D V D D T E T a Temperature Coefficient No load ¾ 3.6V ¾ HT7082A-2 Symbol Ta=25°C Parameter Test Conditions VDD Conditions Min. Typ. Max. Unit VDET Detection Voltage ¾ ¾ 8.118 8.200 8.282 V VHYS Hysteresis Width ¾ ¾ 0.02 VDET 0.05 VDET 0.10 VDET V IDD Operating Current 9.2V ¾ 3 6 mA VDD Operating Voltage ¾ 2.1 ¾ 24 V IOL Output Sink Current VOUT=0.36V 3 6 ¾ mA -40°C<Ta<85°C ¾ ±100 ¾ ppm D V D D T E T a Rev. 1.20 Temperature Coefficient 3.6V ¾ No load ¾ 5 December 14, 2012 HT70xxA-2 Functional Description The HT70xxA-2 series is a set of voltage detectors equipped with a high stability voltage reference which is connected to the negative input of a comparator¾ denoted as VREF in the following figure for NMOS output voltage detector. The hysteresis width is: VHYS = VDET (+) - VDET (-) V R When the voltage drop to the positive input of the comparator (i,e,VB) is higher than VREF, VOUT goes high, M1 turns off, and VB is expressed as VBH=VDD ´ (RB+RC) / (RA+RB+RC). If VDD is decreased so that VB falls to a value less than VREF, the comparator output inverts from high to low, VOUT goes low, VC is high, M1 turns on, RC is bypassed, and VB becomes: VBL= VDD ´ RB / (RA+RB), which is less than VBH. By so doing, the comparator output will stay low to prevent the circuit from oscillating when VB » VREF. V V R E F R R L V B C V O U T M N B M 1 R C V S S NMOS Output Voltage Detector The figure demonstrates the NMOS output type with positive output polarity (VOUT is normally open, active low). The HT70xxA-2 series also supplies options for other output types with active high outputs. Application circuits shown are examples of positive output polarity (normally open, active low) unless otherwise specified. The detectable voltage is defined as: RA + RB + RC ´ VREF RB + RC The release voltage is defined as: RA + RB ´ VREF VDET (+) = RB Rev. 1.20 A C o m p a ra to r If VDD falls below the minimum operating voltage, the output becomes undefined. When VDD goes from low to VDD ´ RB / (RA+RB) > VREF, the comparator output and VOUT goes high. VDET (-) = D D 6 December 14, 2012 HT70xxA-2 Application Circuits Microcomputer Reset Circuit Power-on Reset Circuit Normally a reset circuit is required to protect the microcomputer system from malfunctions due to power line interruptions. The following examples show how different output configurations perform a reset function in various systems. With several external components, the NMOS open drain type of the HT70xxA-2 series can be used to perform a power-on reset function as shown: V IN R · NMOS open drain output application for separate D power supply V V D D 1 V H T 7 0 X X A -2 V D D 2 D D V C O U T R E S E T M ic r o C o m p u te r O U T V O U T V S S H T 7 0 X X A -2 V S S V V D D S S · NMOS open drain output application with R-C delay V D D R H T 7 0 X X A -2 V O U T t M ic r o C o m p u te r V O U T C V S S t 5V Power Line Monitoring Circuit Generally, a minimum operating voltage of 4.5V is guaranteed in a 5V power line system. The HT7044A-2 is recommended for use as 5V power line monitoring circuit. · 5V power line monitor with power-on reset 5 V P o w e r lin e R D V D D C V O U T H T 7 0 4 4 A -2 V Rev. 1.20 7 S S V S S December 14, 2012 HT70xxA-2 · with 5V voltage regulator Malfunction Analysis The following circuit demonstrates the way a circuit analyzes malfunctions by monitoring the variation or spike noise of power supply voltage. 5 V V o lta g e r e g u la to r V 5 V H T 7 1 5 0 -1 IN V D D V S S G N D V D D V V H T 7 0 X X A -2 H T 7 0 4 4 A -2 V V S S S S Charge Monitoring Circuit Change of Detectable Voltage The following circuit shows a charged monitor for p r o t e ct i o n a g a i n st b a t t e r y d e t e r i o r a t i o n b y overcharging. When the voltage of the battery is higher than the set detectable voltage, the transistor turns on to bypass the charge current, protecting the battery from overcharging. If the required voltage is not found in the standard product selection table, it is possible to change it by using external resistance dividers or diodes. · Varying the detectable voltage with a resistance di- vider V O U T O U T IN R V R V V A D D V O U T V S S S o la r C e ll V O U T D D B A T T T r L o a d H T 7 0 X X A -2 B S S V S S H T 7 0 X X A -2 RA + RB ´ VDET RB RA + RB Hysteresis width = ´ VHYS RB Detectable voltage = · Varying the detectable voltage with a diode V IN V f1 V f2 V D D V O U T H T 7 0 X X A -2 V V S S S S Detectable Voltage = Vf1+Vf2+VDET Rev. 1.20 8 December 14, 2012 HT70xxA-2 Level Selector The following diagram illustrates a logic level selector. V D D V V S S V 8 .2 V V D E T 1 5 .0 V V D E T 2 V O U T H T 7 0 5 0 A -2 H T 7 0 8 2 A -2 V V D E T 2 V O U T O U T D E T 1 D D t V O U T t Rev. 1.20 9 December 14, 2012 HT70xxA-2 Package Information Note that the package information provided here is for consultation purposes only. As this information may be updated at regular intervals users are reminded to consult the Holtek website (http://www.holtek.com.tw/english/literature/package.pdf) for the latest version of the package information. 3-pin TO92 Outline Dimensions A B D C E F G H Symbol Nom. Max. A 0.170 ¾ 0.200 B 0.170 ¾ 0.200 C 0.500 ¾ ¾ D 0.011 ¾ 0.020 E 0.090 ¾ 0.110 F 0.045 ¾ 0.055 G 0.045 ¾ 0.065 H 0.130 ¾ 0.160 a 0° ¾ 10° Symbol Rev. 1.20 Dimensions in inch Min. Dimensions in mm Min. Nom. Max. A 4.32 ¾ 5.08 B 4.32 ¾ 5.08 C 12.70 ¾ ¾ D 0.28 ¾ 0.51 E 2.29 ¾ 2.79 F 1.14 ¾ 1.40 G 1.14 ¾ 1.65 H 3.30 ¾ 4.06 a 0° ¾ 10° 10 December 14, 2012 HT70xxA-2 3-pin SOT89 Outline Dimensions I A J B C E D G F Symbol Dimensions in inch Min. Nom. Max. A 0.173 ¾ 0.181 B 0.059 ¾ 0.072 C 0.090 ¾ 0.102 D 0.035 ¾ 0.047 E 0.155 ¾ 0.167 F 0.014 ¾ 0.019 G 0.017 ¾ 0.022 H ¾ 0.059 ¾ I 55 ¾ 63 J 14 ¾ 17 Symbol A Rev. 1.20 H Dimensions in mm Min. Nom. Max. 4.39 ¾ 4.60 B 1.50 ¾ 1.83 C 2.29 ¾ 2.59 D 0.89 ¾ 1.19 E 3.94 ¾ 4.24 F 0.36 ¾ 0.48 G 0.43 ¾ 0.56 H ¾ 1.50 ¾ I 1.40 ¾ 1.60 J 0.36 ¾ 0.43 11 December 14, 2012 HT70xxA-2 5-pin SOT23-5 Outline Dimensions D C L H E q e A A 2 b Symbol Dimensions in inch Min. Nom. Max. 0.039 ¾ 0.051 A1 ¾ ¾ 0.004 A2 0.028 ¾ 0.035 A b 0.014 ¾ 0.020 C 0.004 ¾ 0.010 D 0.106 ¾ 0.122 E 0.055 ¾ 0.071 e ¾ 0.075 ¾ H 0.102 ¾ 0.118 L 0.015 ¾ ¾ q 0° ¾ 9° Symbol Rev. 1.20 A 1 Dimensions in mm Min. Nom. Max. A 1.00 ¾ 1.30 A1 ¾ ¾ 0.10 A2 0.70 ¾ 0.90 b 0.35 ¾ 0.50 C 0.10 ¾ 0.25 D 2.70 ¾ 3.10 E 1.40 ¾ 1.80 e ¾ 1.90 ¾ H 2.60 ¾ 3.0 L 0.37 ¾ ¾ q 0° ¾ 9° 12 December 14, 2012 HT70xxA-2 Product Tape and Reel Specifications TO92 Reel Dimensions (Unit: mm) P a c k a g e U p , F la t S id e U p 3 0 P a c k a g e U p , F la t S id e D o w n 4 3 5 8 8 8 3 6 0 Rev. 1.20 13 December 14, 2012 HT70xxA-2 Reel Dimensions D T 2 A C B T 1 SOT89-3 Symbol Description Dimensions in mm A Reel Outer Diameter 180.0±1.0 B Reel Inner Diameter 62.0±1.5 C Spindle Hole Diameter 12.75 +0.15/-0.00 D Key Slit Width T1 Space Between Flange 12.4 +0.2/-0.0 T2 Reel Thickness 17.0 +0.0/-0.4 1.90±0.15 SOT23-5 Symbol Description Dimensions in mm A Reel Outer Diameter 178.0±1.0 B Reel Inner Diameter 62.0±1.0 C Spindle Hole Diameter 13.0±0.2 D Key Slit Width 2.50±0.25 T1 Space Between Flange 8.4 T2 Reel Thickness 11.4 Rev. 1.20 14 +1.5/-0.0 +1.5/-0.0 December 14, 2012 HT70xxA-2 Carrier Tape Dimensions P D h W 2 H 1 H H 0 l1 W 0 t W 1 W F 1 F 2 D 0 P 2 P 0 TO92 Symbol Note: Description Dimensions in mm I1 Taped Lead Length (2.5) P Component Pitch 12.7±1.0 P0 Perforation Pitch 12.7±0.3 P2 Component to Perforation (Length Direction) 6.35±0.40 F1 Lead Spread 2.5 +0.4/-0.1 F2 Lead Spread 2.5 +0.4/-0.1 Dh Component Alignment W Carrier Tape Width W0 Hold-down Tape Width 6.0±0.5 W1 Perforation Position 9.0±0.5 W2 Hold-down Tape Position H0 Lead Clinch Height 16.0±0.5 H1 Component Height Less than 24.7 D0 Perforation Diameter 4.0±0.2 t Taped Lead Thickness 0.7±0.2 H Component Base Height 19.0±0.5 0.0±0.1 18.0 +1.0/-0.5 (0.5) Thickness less than 0.38±0.05mm~0.5mm P0 Accumulated pitch tolerance: ±1mm/20pitches. ( ) Bracketed figures are for consultation only Rev. 1.20 15 December 14, 2012 HT70xxA-2 Carrier Tape Dimensions P 0 D P 1 t E F W C D 1 B 0 P K 0 A 0 R e e l H o le IC M a r k in g SOT89-3 Symbol Description Dimensions in mm 12.0 +0.3/-0.1 W Carrier Tape Width P Cavity Pitch E Perforation Position 1.75±0.10 F Cavity to Perforation (Width Direction) 5.50±0.05 D Perforation Diameter 1.5 +0.1/-0.0 D1 Cavity Hole Diameter 1.5 +0.1/-0.0 P0 Perforation Pitch 4.0±0.1 P1 Cavity to Perforation (Length Direction) 2.0±0.1 A0 Cavity Length 4.8±0.1 B0 Cavity Width 4.5±0.1 K0 Cavity Depth 1.8±0.1 8.0±0.1 t Carrier Tape Thickness C Cover Tape Width 0.300±0.013 9.3±0.1 SOT23-5 Symbol Description W Carrier Tape Width P Cavity Pitch E Perforation Position Dimensions in mm 8.0±0.3 4.0±0.1 1.75±0.10 F Cavity to Perforation (Width Direction) 3.50±0.05 D Perforation Diameter 1.5 +0.1/-0.0 D1 Cavity Hole Diameter 1.5 +0.1/-0.0 P0 Perforation Pitch P1 Cavity to Perforation (Length Direction) 2.00±0.05 A0 Cavity Length 3.15±0.10 B0 Cavity Width 3.2±0.1 K0 Cavity Depth 1.4±0.1 t Carrier Tape Thickness C Cover Tape Width Rev. 1.20 4.0±0.1 0.20±0.03 5.3±0.1 16 December 14, 2012 HT70xxA-2 Holtek Semiconductor Inc. (Headquarters) No.3, Creation Rd. II, Science Park, Hsinchu, Taiwan Tel: 886-3-563-1999 Fax: 886-3-563-1189 http://www.holtek.com.tw Holtek Semiconductor Inc. (Taipei Sales Office) 4F-2, No. 3-2, YuanQu St., Nankang Software Park, Taipei 115, Taiwan Tel: 886-2-2655-7070 Fax: 886-2-2655-7373 Fax: 886-2-2655-7383 (International sales hotline) Holtek Semiconductor (China) Inc. Building No. 10, Xinzhu Court, (No. 1 Headquarters), 4 Cuizhu Road, Songshan Lake, Dongguan, China 523808 Tel: 86-769-2626-1300 Fax: 86-769-2626-1311 Holtek Semiconductor (USA), Inc. (North America Sales Office) 46729 Fremont Blvd., Fremont, CA 94538, USA Tel: 1-510-252-9880 Fax: 1-510-252-9885 http://www.holtek.com Copyright Ó 2012 by HOLTEK SEMICONDUCTOR INC. The information appearing in this Data Sheet is believed to be accurate at the time of publication. However, Holtek assumes no responsibility arising from the use of the specifications described. The applications mentioned herein are used solely for the purpose of illustration and Holtek makes no warranty or representation that such applications will be suitable without further modification, nor recommends the use of its products for application that may present a risk to human life due to malfunction or otherwise. Holtek¢s products are not authorized for use as critical components in life support devices or systems. Holtek reserves the right to alter its products without prior notification. For the most up-to-date information, please visit our web site at http://www.holtek.com.tw. Rev. 1.20 17 December 14, 2012