Product Change Notices PCN No.:20091101 Date: 11/09/2009 This is to inform you that AME8550 datasheet has been changed from Rev. H.10 to Rev. I.01. This notification is for your information and concurrence. If we do not receive any response from you within 30 calendar days from the date of this notification, we will consider that you have accepted this PCN. If you have any questions concerning this change, please contact: PCN Originator: Name: Bill Chou Email: [email protected] Expected 1st Device Shipment Date: N/A Earliest Year/Work Week of Changed Product: 0946 Description of Change: 1. Delete Pin configuration AME8550AEITxxxx plot on page 2. 2. Delete all Non-Green Part Number. Reason for Change: 1. We will not support AME8550AEITxxxx to simplify our subcontractor parter control. 2. We will not support leaded product to meet ECO green policy. QPM018B-B AME AME8550 n General Description The AME8550 series are highly precise, low power consumption voltage detectors, manufactured using CMOS and fuse trimming technologies. Detect voltage is extremely accurate with minimal temperature drift. Voltage Detector n Functional Block Diagram (1) CMOS Output without Delay VI N V OUT Both CMOS and N channel open drain output configurations are available. GND Vref BG n Features l Highly Accurate: + 2% (2) Nch Open Drain Output without Delay l Low Power Consumption: TYP 0.8µA (V IN=1.5V) VI N l Detect Voltage Range: 1.6V to 6.0V in 0.1V V OUT Increments l Operating Voltage Range: 1.2V to 6.5V GND Vref l Detect Voltage Temperature Characteristics: TYP ± 100ppm/oC BG l Output Configuration: N-channel Open Drain or CMOS l Ultra Small Package : SOT-23/TSOT-23 (150mW) SOT-25/TSOT-25 (150mW) (3) CMOS Output with Delay VI N V OUT SOT-89 (500mW) VI N SC-70 (100mW) l Add an External Capacitor to Perform an µP Reset. V T H =VREF l All AME’ s Lead Free Products Meet RoHS BG (4) Nch Open Drain Output with Delay l Microprocessor Reset Circuitry l Memory Battery Back-up Circuits CD Vref Standards n Applications GND I VO U T VI N VI N l Power-on Reset Circuits GND I l Power Failure Detection l System Battery Life and Charge Voltage V T H =VREF Monitors CD Vref BG Rev.I.01 1 AME AME8550 Voltage Detector n Pin Configuration l Without Delay Time SOT-89 Top View SOT-23/TSOT-23 Top View AME8550AEETXXXX 3 1. OUT 2. GND AME8550 AME8550 3. IN * Die Attach: Non-Conductive Epoxy 1 AME8550AEFTXXXX 1. OUT 2. IN(TAB) 3. GND 1 2 3 * Die Attach: Non-Conductive Epoxy 2 SC-70-4 Top View SOT-25/TSOT-25 Top View 5 4 AME8550CEEVXXXX 1. OUT 4 3 2. IN AME8550 3. GND 1 2 3 * Die Attach: 1. OUT 2. IN AME8550 4. NC 5. NC AME8550AEIUXXXX 3. NC 4. GND 2 1 * Die Attach: Non-Conductive Epoxy Non-Conductive Epoxy l With Delay Time SOT-25/TSOT-25 Top View SOT-25/TSOT-25 Top View 5 4 AME8550AEEVXXXX 1. OUT 5 4 3. GND 4. CD 3. GND AME8550 2 3 * Die Attach: Non-Conductive Epoxy SC-70-5 Top View 5 4. NC 5. CD 5. NC 1 1. OUT 2. IN 2. IN AME8550 AME8550BEEVXXXX * Die Attach: 1 2 3 Non-Conductive Epoxy AME8550AEIVXXXX 4 1. OUT 2. IN AME8550 3. CD 4. NC 5. GND 1 2 3 * Die Attach: Non-Conductive Epoxy 2 Rev.I.01 AME AME8550 Voltage Detector n Ordering Information l Without Delay Time AME8550 x x x x x xxx x Special Feature Detect Voltage Output Options Number of Pins Package Type Operating Ambient Temperature Range Pin Configuration Pin Configuration A (SOT-23) (TSOT-23) A (SOT-89) A (SC-70-4) C (SOT-25) (TSOT-25) Rev.I.01 Operating Ambient Temperature Range 1. OUT E: -40OC to +85OC 2. GND 3. IN 1. OUT 2. IN 3. GND 1.OUT 2.IN 3.NC 4GND 1. OUT 2. IN 3. GND 4. NC 5. NC Package Type Number of Pins E: SOT-2X T: 3 F: SOT-89 V: 5 I: SC-70 U: 4 Output Options A: CMOS output without delay Detect Voltage 190: 210: 220: B: Open-Drain output 230: without delay 240: 250: 260: 270: 280: 290: 300: 330: 340: 360: 390: 420: 440: 460: 500: Special Feature V=1.9V Y: Lead free V=2.1V & Low profile V=2.2V Z: Lead free V=2.3V V=2.4V V=2.5V V=2.6V V=2.7V V=2.8V V=2.9V V=3.0V V=3.3V V=3.4V V=3.6V V=3.9V V=4.2V V=4.4V V=4.6V V=5.0V 3 AME AME8550 Voltage Detector n Ordering Information l With Delay Time AME8550 x x x x x xxx x Special Feature Detect Voltage Output Options Number of Pins Package Type Operating Ambient Temperature Range Pin Configuration Pin Configuration A (SOT-25) (TSOT-25) B (SOT-25) (TSOT-25) A (SC-70-5) 4 Operating Ambient Temperature Range 1. OUT E: -40OC to +85OC 2. IN 3. GND 4. CD 5. NC 1. OUT 2. IN 3. GND 4. NC 5. CD 1. OUT 2. IN 3. CD 4. NC 5. GND Package Type Number of Pins E: SOT-2X V: 5 I: SC-70 Output Options C: CMOS output with delay Detect Voltage 190: 210: 220: D: Open-Drain output 230: 240: with delay 250: 260: 270: 280: 290: 300: 340: 360: 370: 420: 440: 460: 500: V=1.9V V=2.1V V=2.2V V=2.3V V=2.4V V=2.5V V=2.6V V=2.7V V=2.8V V=2.9V V=3.0V V=3.4V V=3.6V V=3.7V V=4.2V V=4.4V V=4.6V V=5.0V Special Feature Y: Lead free & Low profile Z: Lead free Rev.I.01 AME AME8550 Voltage Detector n Pin Description Pin Name Pin Description IN Supply Voltage Input GND Ground OUT Output NC No Connection CD Connect an external capacitor when delay function is needed n Ordering Information Detect Voltage Package Operating Ambient Temperature Range Part Number Marking* AME8550AEEVC190Z AXOww 1.9V SOT-25 -40oC to +85oC AME8550AEEVC190Y AXOww 1.9V TSOT-25 -40oC to +85oC AME8550AEEVD190Z AZKww 1.9V SOT-25 -40oC to +85oC AME8550AEEVD190Y AZKww 1.9V TSOT-25 -40oC to +85oC AME8550BEEVC190Z AXPww 1.9V SOT-25 -40oC to +85oC AME8550BEEVC190Y AXPww 1.9V TSOT-25 -40oC to +85oC AME8550BEEVD190Z AZFww 1.9V SOT-25 -40oC to +85oC AME8550BEEVD190Y AZFww 1.9V TSOT-25 -40oC to +85oC AME8550AEETB210Z AXQww 2.1V SOT-23 -40oC to +85oC AME8550AEETB210Y AXQww 2.1V TSOT-23 -40oC to +85oC AME8550AEFTB210Z A8550A B210ww 2.1V SOT-89 -40oC to +85oC AME8550BEEVC210Z BCNww 2.1V SOT-25 -40oC to +85oC AME8550BEEVC210Y BCNww 2.1V TSOT-25 -40oC to +85oC AME8550CEEVB210Z AXRww 2.1V SOT-25 -40oC to +85oC AME8550CEEVB210Y AXRww 2.1V TSOT-25 -40oC to +85oC Note: ww represents the date code / w represents date code ( A thru Z ) : 2 work weeks per character and please refer to Date Cole Rule on Package Dimension . * A line on top of the first letter represents lead free plating such as AXOww. Please consult AME sales office or authorized Rep./Distributor for the availability of output voltage and package type . Rev.I.01 5 AME AME8550 Voltage Detector n Ordering Information (contd.) 6 Detect Voltage Package Operating Ambient Temperature Range Part Number Marking* AME8550AEETA220Z AWHww 2.2V SOT-23 -40oC to +85oC AME8550AEETA220Y AWHww 2.2V TSOT-23 -40oC to +85oC AME8550AEFTA220Z A8550A A220ww 2.2V SOT-89 -40oC to +85oC AME8550AEETB220Z AWUww 2.2V SOT-23 -40oC to +85oC AME8550AEETB220Y AWUww 2.2V TSOT-23 -40oC to +85oC AME8550AEFTB220Z A8550A B220ww 2.2V SOT-89 -40oC to +85oC AME8550CEEVB220Z AXSww 2.2V SOT-25 -40oC to +85oC AME8550CEEVB220Y AXSww 2.2V TSOT-25 -40oC to +85oC AME8550AEEVD230Z AYTww 2.3V SOT-25 -40oC to +85oC AME8550AEEVD230Y AYTww 2.3V TSOT-25 -40oC to +85oC AME8550BEEVD230Z AYUww 2.3V SOT-25 -40oC to +85oC AME8550BEEVD230Y AYUww 2.3V TSOT-25 -40oC to +85oC AME8550AEETA240Z AXTww 2.4V SOT-23 -40oC to +85oC AME8550AEETA240Y AXTww 2.4V TSOT-23 -40oC to +85oC AME8550AEFTA240Z A8550A A240ww 2.4V SOT-89 -40oC to +85oC AME8550CEEVA240Z AXUww 2.4V SOT-25 -40oC to +85oC AME8550CEEVA240Y AXUww 2.4V TSOT-25 -40oC to +85oC AME8550AEETB240Z AXVww 2.4V SOT-23 -40oC to +85oC AME8550AEETB240Y AXVww 2.4V TSOT-23 -40oC to +85oC AME8550AEFTB240Z A8550A B240ww 2.4V SOT-89 -40oC to +85oC AME8550CEEVB240Z AXWww 2.4V SOT-25 -40oC to +85oC AME8550CEEVB240Y AXWww 2.4V TSOT-25 -40oC to +85oC AME8550AEEVD240Z AXXww 2.4V SOT-25 -40oC to +85oC AME8550AEEVD240Y AXXww 2.4V TSOT-25 -40oC to +85oC AME8550BEEVD240Z AXYww 2.4V SOT-25 -40oC to +85oC AME8550BEEVD240Y AXYww 2.4V TSOT-25 -40oC to +85oC Rev.I.01 AME AME8550 Voltage Detector n Ordering Information (contd.) Marking* AME8550AEETB250Z AXZww 2.5V SOT-23 -40oC to +85oC AME8550AEETB250Y AXZww 2.5V TSOT-23 -40oC to +85oC AME8550AEFTB250Z A8550A B250ww 2.5V SOT-89 -40oC to +85oC AME8550CEEVB250Z AYAww 2.5V SOT-25 -40oC to +85oC AME8550CEEVB250Y AYAww 2.5V TSOT-25 -40oC to +85oC AME8550AEEVD260Z AYVww 2.6V SOT-25 -40oC to +85oC AME8550AEEVD260Y AYVww 2.6V TSOT-25 -40oC to +85oC AME8550BEEVD260Z AYWww 2.6V SOT-25 -40oC to +85oC AME8550BEEVD260Y AYWww 2.6V TSOT-25 -40oC to +85oC AME8550AEETA270Z AWIww 2.7V SOT-23 -40oC to +85oC AME8550AEETA270Y AWIww 2.7V TSOT-23 -40oC to +85oC AME8550AEFTA270Z A8550A A270ww 2.7V SOT-89 -40oC to +85oC AME8550AEETB270Z AWVww 2.7V SOT-23 -40oC to +85oC AME8550AEETB270Y AWVww 2.7V TSOT-23 -40oC to +85oC AME8550AEFTB270Z A8550A B270ww 2.7V SOT-89 -40oC to +85oC AME8550CEEVB270Z AYSww 2.7V SOT-25 -40oC to +85oC AME8550CEEVB270Y AYSww 2.7V TSOT-25 -40oC to +85oC AME8550AEEVD270Z AYXww 2.7V SOT-25 -40oC to +85oC AME8550AEEVD270Y AYXww 2.7V TSOT-25 -40oC to +85oC AME8550BEEVD270Z AYYww 2.7V SOT-25 -40oC to +85oC AME8550BEEVD270Y AYYww 2.7V TSOT-25 -40oC to +85oC AME8550BEEVC270Z BLRww 2.7V SOT-25 -40oC to +85oC AME8550AEETB280Z AYBww 2.8V SOT-23 -40oC to +85oC AME8550AEETB280Y AYBww 2.8V TSOT-23 -40oC to +85oC AME8550AEFTB280Z A8550A B280ww 2.8V SOT-89 -40oC to +85oC AME8550CEEVB280Z AYCww 2.8V SOT-25 -40oC to +85oC Rev.I.01 Detect Voltage Package Operating Ambient Temperature Range Part Number 7 AME AME8550 Voltage Detector n Ordering Information (contd.) 8 Detect Voltage Package Operating Ambient Temperature Range Part Number Marking* AME8550CEEVB280Y AYCww 2.8V TSOT-25 -40oC to +85oC AME8550AEEVC290Z AYDww 2.9V SOT-25 -40oC to +85oC AME8550AEEVC290Y AYDww 2.9V TSOT-25 -40oC to +85oC AME8550BEEVC290Z AYEww 2.9V SOT-25 -40oC to +85oC AME8550BEEVC290Y AYEww 2.9V TSOT-25 -40oC to +85oC AME8550AEETA300Z AYFww 3.0V SOT-23 -40oC to +85oC AME8550AEETA300Y AYFww 3.0V TSOT-23 -40oC to +85oC AME8550AEFTA300Z A8550A A300ww 3.0V SOT-89 -40oC to +85oC AME8550CEEVA300Z AYGww 3.0V SOT-25 -40oC to +85oC AME8550CEEVA300Y AYGww 3.0V TSOT-25 -40oC to +85oC AME8550AEETB340Z AYHww 3.4V SOT-23 -40oC to +85oC AME8550AEETB340Y AYHww 3.4V TSOT-23 -40oC to +85oC AME8550AEFTB340Z A8550A B340ww 3.4V SOT-89 -40oC to +85oC AME8550CEEVB340Z AYIww 3.4V SOT-25 -40oC to +85oC AME8550CEEVB340Y AYIww 3.4V TSOT-25 -40oC to +85oC AME8550AEEVD360Z AYJww 3.6V SOT-25 -40oC to +85oC AME8550AEEVD360Y AYJww 3.6V TSOT-25 -40oC to +85oC AME8550BEEVD360Z AYKww 3.6V SOT-25 -40oC to +85oC AME8550BEEVD360Y AYKww 3.6V TSOT-25 -40oC to +85oC AME8550AEIUA390Z BLMw 3.9V SC-70-4 -40oC to +85oC AME8550BEEVD420Z AZXww 4.2V SOT-25 -40oC to +85oC AME8550BEEVD420Y AZXww 4.2V TSOT-25 -40oC to +85oC AME8550AEFTB440Z A8550A B440ww 4.4V SOT-89 -40oC to +85oC AME8550AEETB440Z AYLww 4.4V SOT-23 -40oC to +85oC AME8550AEETB440Y AYLww 4.4V TSOT-23 -40oC to +85oC AME8550CEEVB440Z AYMww 4.4V SOT-25 -40oC to +85oC AME8550CEEVB440Y AYMww 4.4V TSOT-25 -40oC to +85oC Rev.I.01 AME AME8550 Voltage Detector n Ordering Information (contd.) Marking* AME8550AEEVC460Z AYNww 4.6V SOT-25 -40oC to +85oC AME8550AEEVC460Y AYNww 4.6V TSOT-25 -40oC to +85oC AME8550BEEVC460Z AYOww 4.6V SOT-25 -40oC to +85oC AME8550BEEVC460Y AYOww 4.6V TSOT-25 -40oC to +85oC AME8550AEFTA500Z A8550A A500ww 5.0V SOT-89 -40oC to +85oC AME8550AEIVD280Z BDGw 2.8V SC-70-5 -40oC to +85oC AME8550CEEVB300Z BEAww 3.0V SOT-25 -40oC to +85oC AME8550CEEVB300Y BEAww 3.0V TSOT-25 -40oC to +85oC AME8550AEETA390Z BDKww 3.9V SOT-23 -40oC to +85oC AME8550AEETA390Y BDKww 3.9V TSOT-23 -40oC to +85oC AME8550AEETA340Z BIZww 3.4V SOT-23 -40oC to +85oC AME8550BEEVC240Z BDHww 2.4V SOT-25 -40oC to +85oC AME8550BEEVC240Y BDHww 2.4V TSOT-25 -40oC to +85oC AME8550CEEVB270Z AYSww 2.7V SOT-25 -40oC to +85oC AME8550CEEVB270Y AYSww 2.7V TSOT-25 -40oC to +85oC AME8550BEEVD280Z BKOww 2.8V SOT-25 -40oC to +85oC AME8550BEEVD280Y BKOww 2.8V TSOT-25 -40oC to +85oC AME8550CEEVA270Z BKUww 2.7V SOT-25 -40oC to +85oC AME8550AEIVD300Z BRVw 3.0V SC-70-5 -40oC to +85oC AME8550AEIVD340Z BRWw 3.4V SC-70-5 -40oC to +85oC AME8550AEIVD360Z BTRw 3.6V SC-70-5 -40oC to +85oC AME8550BEEVD370Z BTTww 3.7V SOT-25 -40oC to +85oC AME8550AEIUA270Z BVMw 2.7V SC-70-4 -40oC to +85oC AME8550AEETB330Z BDMww 3.3V SOT-23 -40oC to +85oC Rev.I.01 Detect Voltage Package Operating Ambient Temperature Range Part Number 9 AME AME8550 Voltage Detector n Absolute Maximum Ratings Parameter Symbol Maximum Unit Input Voltage VIN 7 V Output Current IOUT 50 mA CMOS GND -0.3 to VIN +0.3 Output Voltage VOUT Nch open drain V GND -0.3 to 7 ESD Classification C* Caution: Stress above the listed absolute rating may cause permanent damage to the device. *HBM C:4000V+ n Recommed Operating Condition Parameter 10 Symbol Maximum Ambient Temperature Range TA -40 to +85 Junction Temperature Range TJ - 40 to +125 Storage Temperature Range TSTG - 65 to +150 Unit o C Rev.I.01 AME AME8550 Voltage Detector n Thermal Information Parameter Package Die Attach Symbol SOT-23* TSOT-23* Thermal Resistance (Junction to Case) Thermal Resistance (Junction to Ambient) Internal Power Dissipation Maximum 140 θJC SOT-25* TSOT-25* 140 SOT-89** 46 SOT-23 TSOT-23 280 SOT-25 TSOT-25 Unit Non-Conductive Epoxy θJA 180 SOT-23 TSOT-23 400 SOT-89 PD C/W 280 SOT-89 SOT-25 TSOT-25 o 400 mW 550 Maximum Junction Temperature 150 o C Solder Iron (10 Sec)*** 350 o C * Measure θJC on backside center of tab. ** Measure θJC on center of molding compound if IC has no tab. *** MIL-STD-202G 210F Rev.I.01 11 AME AME8550 Voltage Detector n Electrical Specifications TA = 25OC, V DF(T)=1.6 to 6.0V + 2% Parameter Detect Voltage Hysteresis Range Supply Current Operating Voltage Test Condition Symbol VD F VHYS / VDF ISS VIN =VDF +0.5V VIN I OUT Typ VDF 2 V IN=VDF x 0.95 VDS=0.5V Max VDF x1.02 Units 8 % 1.5 < V IN < 2.0 0.9 2.7 2.0 <= V IN < 3.0 1.0 3.0 3.0 <= V IN < 4.0 1.1 3.2 4.0 <= VIN <= 5.0 1.2 3.6 5.0 < VIN <= 6.0 2 4.0 VDF(T)=1.6V to 6.0V Nch Output Current Min V DF x0.98 1.2 6.5 1.0 < V IN < 2.0 1.0 2.2 2.0 <= V IN < 3.0 3.0 7.7 3.0 <= V IN < 4.0 5.0 10.1 4.0 <= VIN <= 5.0 6.0 11.5 5.0 < VIN <= 6.0 7.0 13.0 V DS=2.1V V IN=7V (with CMOS output) V µA V mA Pch Temperature Characteristics Propagation Time (VDR --> V OUT inversion) ∆VDF ∆TA.V DF tDLY o -10.0 o -40 C<= TA <= +85 C -2.0 o ±100 ppm/ C 0.2 mS Note: VDF(T) : Established Detect Voltage Value Release Voltage : VDR = VDF + V HYS 12 Rev.I.01 AME AME8550 Voltage Detector n Functional Description (CMOS output without delay) n Functional Description (CMOS output with delay) 1. When input voltage (V IN) rises above detect voltage (V DF), output voltage (V OUT) will be equal to VIN. 1. When input voltage (V IN) rises above detect voltage (V DF), output voltage (V OUT) will be equal to VIN. ( A condition of high impedance exists with Nch open drain output configurations. ) ( A condition of high impedance exists with Nch open drain output configurations. ) 2. When input voltage (V IN) falls below detect voltage (V DF), output voltage (V OUT) will be equal to the ground voltage (GND) level. 2. When input voltage (V IN) falls below detect voltage (V DF), output voltage (V OUT) will be equal to the ground voltage (GND) level. 3. When input voltage (V IN) falls to a level below that of the minimum operating voltage (V MIN), output will become unstable. In this condition, VIN will equal the pulled-up output ( should output be pulled-up.) 3. When input voltage (V IN) falls to a level below that of the minimum operating voltage (V MIN), output will become unstable. In this condition, VIN will equal the pulled-up output ( should output be pulled-up.) 4. When input voltage (V IN) rises above the ground voltage (GND) level, output will be unstable at levels below the minimum operating voltage (V MIN). Between the VMIN and detect release voltage (V DR) levels, theground voltage (GND) level will be maintained. 4. When input voltage (V IN) rises above the ground voltage (GND) level, output will be unstable at levels below the minimum operating voltage (V MIN). Between the VMIN and detect release voltage (V DR) levels, theground voltage (GND) level will be maintained. 5. When input voltage (V IN) rises above detect release voltage (V DR), output voltage (V OUT) will be equal to VIN. 5. When input voltage (V IN) rises above detect release voltage (V DR), output voltage (V OUT) will be equal to VIN after TD delay time. ( A condition of high impedance exists with Nch open drain output configurations. ) 6. The difference between VDR and VDF represents the hysteresis range. Q = V x C = I x TD T= VxC (V=VREF ) I For Example, TD= VREF * 1nF 75nA ( A condition of high impedance exists with Nch open drain output configurations. ) 6. The difference between VDR and VDF represents the hysteresis range. n Timing Chart n Timing Chart 6 Input Voltage (VIN) Detect Release Voltage (VDR ) Detect Voltage (VDF ) 6 Input Voltage (VIN ) Detect Release Voltage (VDR ) Detect Voltage (VDF ) Min. Operating Voltage (VMIN) Ground Voltage (GND) Min. Operating Voltage (VMIN) Ground Voltage (GND) Output Voltage (VOUT ) Output Voltage (VOUT ) TD Ground Voltage (GND) Ground Voltage (GND) 1 Rev.I.01 2 3 4 5 1 2 3 4 5 13 AME AME8550 Voltage Detector n Notes on Use 1. When a resistor is connected between the VIN pin and the input with CMOS output configurations, oscillation may occur as a result of voltage drops at RIN if load current (IOUT) exists. ( refer to 5 - (1) below ) 2. When a resistor is connected between the VIN pin and the input with CMOS output configurations, irrespective of Nch output configurations, oscillation may occur as a result of through current at the time of voltage release even if load current (IOUT) does not exist.( refer to 5 - (1)(2) below ) 3. With a resistor connected between the VIN pin and the input, detect and release voltage will rise as a result of the IC’ s supply current flowing through the VIN pin. 4. In order to stabilise the IC’ s operations, please ensure that VIN pin’ s input frequency’ s rise and fall times are more than several µ sec / V. (2) Oscillation as a result of through current Since the AME8550 series are CMOS IC’ S , through current will flow when the IC’ s internal circuit switching operates(during release and detect operations ).Consequently, oscillation is liable to occur as a result of drops in voltage at the through current’ s resistor (RIN) during release voltage operations. ( refer to diagram 2 ) Since hysteresis exists during detect operations, oscillation is unlikely to occur. Input RIN RIN xIOUT voltage drop AME8550 IOUT VIN 5. Oscillation VOUT GND (1) Output current oscillation with the CMOS output configuration When the voltage applied at IN rises, release operations commence and the detector’ s output voltage increases. Load current (IOUT) will flow at RL. Because a voltage drop ( RIN x IOUT) is produced at the RIN resistor, located between the input (IN) and the VIN pin, the load current will flow via the IC’ s VIN pin. The voltage drop will also lead to a fall in the voltage level at the VIN pin. When the VIN pin voltage level falls below the detect voltage level, detect operations will commence. Following detect operations, load current flow will cease and since voltage drop at RIN will disappear, the voltage level at the VIN pin will rise and release operations will begin over again. Oscillation may occur with this “ release - detect - release” repetition. Diagram1 Input RIN RINxISS* voltage drop AME8550 V IN VOUT GND Iss* (includes through current) Diagram2 Further, this condition will also appear via means of a similar mechanism during detect operations. 14 Rev.I.01 AME AME8550 Voltage Detector n Characterization Curve AME8550-1.9V AME8550-1.9V 14 140 NMOS Sinking Current (mA) NMOS Sinking Current (uA) 160 VIN=0.8V 120 100 80 60 40 VIN=0.7V 20 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 10 8 6 4 2 0 0.00 0 0 12 1 0.25 0.50 0.75 AME8550-2.7V NMOS Sinking Current (mA) NMOS Sinking Current (uA) 150 100 50 V IN =2.5V 30 VIN=2.0V 25 20 VIN =1.5V 15 10 VIN =1.0V 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 0 0.00 1.0 0.50 1.00 1.50 2.00 2.50 3.00 VDS (V) VDS (V) AME8550-4.6V AME8550-4.6V 180 50 VIN =0.8V 140 120 100 80 60 40 VIN=0.7V 20 0.1 0.2 0.3 VIN =4.0V 45 NMOS Sinking Current (mA) 160 NMOS Sinking Current (uA) 1.75 35 5 0.4 0.5 0.6 VDS (V) Rev.I.01 1.50 40 200 0 0.0 1.25 AME8550AEETA270 250 0 0.0 1.00 VDS (V) VDS (V) 0.7 0.8 0.9 1.0 40 V IN =3.5V V IN =3.0V 35 V IN =2.5V 30 VIN =2.0V 25 20 15 V IN =1.5V 10 5 0 0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 VDS (V) 15 AME AME8550 Voltage Detector n Characterization Curve AME8550-1.9V AME8550-1.9V 9 VDS=2.1V NMOS Sinking Current (mA) 14 12 VDS=1.5V 10 VDS=1.0V 8 6 VDS=0.5V 4 2 8 7 6 5 4 3 2 1 0 0 0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 0.0 5.5 6.0 0.5 1.0 AME8550-2.7V AME8550AEETA270 9 VDS=2.1V NMOS Sinking Current (mA) 14 12 VDS=1.5V 10 8 VDS=1.0V 6 4 VDS=0.5V 2 8 7 6 5 4 3 2 1 0 0.0 5.5 6. 0 5.0 4. 5 4. 0 3. 5 3.0 2. 5 2. 0 1.5 0. 5 1. 0 0. 0 0 0.5 1.0 1.5 2.0 2.5 3.0 Input Voltage (V) Input Voltage (V) AME8550-4.6V AME8550-4.6V 10 16 VDS=2.1V 7 6 5 4 3 2 1 0 0 1 2 3 Input Voltage (V) 4 5 12 VDS=1.5V 10 VDS=1.0V 8 6 VDS=0.5V 4 2 0 0. 8 1. 2 1. 6 8 14 0. 0 0. 4 PMOS Sourcing Current (mA) 9 2. 0 2. 4 2. 8 PMOS Sourcing Current (mA) 16 NMOS Sinking Current (mA) 2.0 Input Voltage (V) Input Voltage (V) 16 1.5 3. 2 3. 6 4. 0 4. 4 4. 8 5. 2 5. 6 6. 0 PMOS Sourcing Current (mA) 16 Input Voltage (V) Rev.I.01 AME AME8550 Voltage Detector n Characterization Curve Supply Current vs. Input Voltage (2.7V) Output Voltage vs. Input Voltage (2.2V) 3.0 3.5 3.0 Output Voltage (V) Supply Current (uA) 2.5 2.0 1.5 1.0 0.5 2.5 2.0 VIN down 1.5 V IN up 1.0 0.5 0.0 0.0 0 1 2 3 4 5 Input voltage (V) 0 0.5 1 1.5 2 2.5 3 Input Voltage (V) Output Voltage vs. Input Voltage (2.7V) 3.5 Output Voltage (V) 3.0 2.5 VIN down 2.0 VIN up 1.5 1.0 0.5 0.0 0 0.5 1 1.5 2 2.5 3 Input Voltage (V) Rev.I.01 17 AME AME8550 Voltage Detector n Date Code Rule Marking Date Code Year A A A W W xxx0 A A A W W xxx1 A A A W W xxx2 A A A W W xxx3 A A A W W xxx4 A A A W W xxx5 A A A W W xxx6 A A A W W xxx7 A A A W W xxx8 A A A W W xxx9 Date Code Year For SC-70 Package Only Marking 18 w: Work Week Code A A A W xxx0 A: 01&02 K: 21&22 U: 41&42 A A A W xxx1 B: 03&04 L: 23&24 V: 43&44 A A A W xxx2 C: 05&06 M: 25&26 W: 45&46 A A A W xxx3 D: 07&08 N: 27&28 X: 47&48 A A A W xxx4 E: 09&10 O: 29&30 Y: 49&50 A A A W xxx5 F: 11&12 P: 31&32 Z: 51&52 A A A W xxx6 G: 13&14 Q: 33&34 A A A W xxx7 H: 15&16 R: 35&36 A A A W xxx8 I: 17&18 S: 37&38 A A A W xxx9 J: 19&20 T: 39&40 Rev.I.01 AME AME8550 Voltage Detector n Tape and Reel Dimension SOT-23 P W AME AME PIN 1 Carrier Tape, Number of Components Per Reel and Reel Size Package Carrier Width (W) Pitch (P) Part Per Full Reel Reel Size SOT-23 8.0±0.1 mm 4.0±0.1 mm 3000pcs 180±1 mm TSOT-23 P W AME AME PIN 1 Carrier Tape, Number of Components Per Reel and Reel Size Rev.I.01 Package Carrier Width (W) Pitch (P) Part Per Full Reel Reel Size TSOT-23 8.0±0.1 mm 4.0±0.1 mm 3000pcs 180±1 mm 19 AME AME8550 Voltage Detector n Tape and Reel Dimension SOT-25 P W AME AME PIN 1 Carrier Tape, Number of Components Per Reel and Reel Size Package Carrier Width (W) Pitch (P) Part Per Full Reel Reel Size SOT-25 8.0±0.1 mm 4.0±0.1 mm 3000pcs 180±1 mm TSOT-25 P W AME AME PIN 1 Carrier Tape, Number of Components Per Reel and Reel Size 20 Package Carrier Width (W) Pitch (P) Part Per Full Reel Reel Size TSOT-25 8.0±0.1 mm 4.0±0.1 mm 3000pcs 180±1 mm Rev.I.01 AME AME8550 Voltage Detector n Tape and Reel Dimension SC-70-4 P W AME AME PIN 1 Carrier Tape, Number of Components Per Reel and Reel Size Package Carrier Width (W) Pitch (P) Part Per Full Reel Reel Size SC-70-4 8.0±0.1 mm 4.0±0.1 mm 3000pcs 180±1 mm SC-70-5 P W AME AME PIN 1 Carrier Tape, Number of Components Per Reel and Reel Size Rev.I.01 Package Carrier Width (W) Pitch (P) Part Per Full Reel Reel Size SC-70-5 8.0±0.1 mm 4.0±0.1 mm 3000pcs 180±1 mm 21 AME AME8550 Voltage Detector n Tape and Reel Dimension SOT-89 P W AME AME PIN 1 Carrier Tape, Number of Components Per Reel and Reel Size 22 Package Carrier Width (W) Pitch (P) Part Per Full Reel Reel Size SOT-89 12.0±0.1 mm 4.0±0.1 mm 1000pcs 180±1 mm Rev.I.01 AME AME8550 Voltage Detector n Package Dimension SOT-23 Top View Side View SYMBOLS D H INCHES MIN MAX MIN MAX A 1.00 1.40 0.0394 0.0551 A1 0.00 0.15 0.0000 0.0059 b 0.35 0.50 0.0138 0.0197 D 2.70 3.10 0.1063 0.1220 E 1.40 1.80 0.0551 0.0709 θ1 E MILLIMETERS L 1.90 BSC e e H 2.40 0o 0.09449 0.11811 0.0138BSC 10o 0o 10o A θ1 3.00 0.35BSC L Front View 0.0748 BSC A1 b TSOT-23 Top View Side View D SYMBOLS MAX MIN MAX A+A1 0.80 1.30 0.0315 0.0512 b 0.35 0.50 0.0138 0.0197 D 2.70 3.10 0.1063 0.1220 E 1.20 1.80 0.0472 0.0709 H E L 1.90 BSC e H 2.40 θ1 0.0748 BSC 3.00 0.35BSC L 0 o 10 0.09449 0.11811 0.0138BSC o 0o 10o b Rev.I.01 A1 A Front View INCHES MIN θ1 e MILLIMETERS 23 AME AME8550 Voltage Detector n Package Dimension SOT-25 Top View Side View SYMBOLS D MILLIMETERS MIN θ1 1.20REF E H A L S1 0.0472REF 0.15 0.0000 0.0059 b 0.30 0.55 0.0118 0.0217 D 2.70 3.10 0.1063 0.1220 E 1.40 1.80 0.0551 0.0709 1.90 BSC e θ1 2.60 0.07480 BSC 3.00 0.37BSC 0 o 10 0.10236 0.11811 0.0146BSC o 0 o 10 0.95BSC 0.0374BSC MILLIMETERS INCHES S1 o A1 A MAX 0.00 L Front View MIN A1 H e MAX INCHES b TSOT-25 Top View Side View D E H θ1 L S1 SYMBOLS MIN MAX MIN MAX A+A1 0.90 1.25 0.0354 0.0492 b 0.30 0.50 0.0118 0.0197 D 2.70 3.10 0.1063 0.1220 E 1.40 1.80 0.0551 0.0709 H e 1.90 BSC e 2.40 θ1 0 o 10 0.95BSC 0.09449 0.11811 0.0138BSC o 0 o 10 o 0.0374BSC b 24 A1 A S1 3.00 0.35BSC L Front View 0.07480 BSC Rev.I.01 AME AME8550 Voltage Detector n Package Dimension SOT-89 Top View D Side View H D1 SYMBOLS A E A1 3' 10' A1 C e Bottom View D2 Front View E2 I INCHES MIN MAX MIN MAX 1.39 1.60 0.05472 0.06299 0.8 REF 0.03150 REF C 0.35 0.44 0.01378 0.01732 D 4.39 4.60 0.17283 0.18110 D1 1.35 1.83 0.05315 0.07205 E 2.28 2.60 0.08976 0.10236 I 0.36 0.56 0.01417 0.02204 e 3.00 REF 0.11811 REF H 0.70 REF 0.02756 REF 1.50 REF 0.05906 REF A MATTE FINISH MILLIMETERS S1 POLISH E2 2.05 2.60 0.08071 0.10236 D2 1.50 1.85 0.05905 0.07283 S1 Rev.I.01 25 AME AME8550 Voltage Detector SC-70-4 Top View Side View D e1 θ e SYMBOLS E1 PIN 1 L1 d b 0.20 c b1 A A2 Front View MAX MIN MAX A 0.900 1.100 0.035 0.043 A1 0.000 0.100 0.000 0.004 A2 0.900 1.000 0.035 0.039 b 0.250 0.400 0.010 0.016 b1 0.350 0.500 0.014 0.020 c 0.080 0.150 0.003 0.006 d A1 0.050 TYP 0.002 TYP D 2.000 2.200 0.079 0.087 E 1.150 1.350 0.045 0.053 E1 2.150 2.450 0.085 0.096 e e1 L 26 INCHES MIN L E MILLIMETERS L1 θ 0.650 TYP 1.200 0.026TYP 1.400 0.525 REF 0.260 0 o 0.460 8 o 0.047 0.055 0.021 REF 0.010 o 0 0.018 8 o Rev.I.01 AME AME8550 Voltage Detector n Package Dimension SC-70-5 Top View Side View SYMBOLS D 0.15(0.006) e1 D E/2 E1/2 E E1 0.15(0.006) A C e See Detail A B .10(0.004) M CA B b Front View MAX MIN MAX A 0.80 1.10 0.031 0.043 A1 0.00 0.10 0.000 0.004 A2 0.80 1.00 0.031 0.040 b 0.15 0.30 0.006 0.012 b1 0.15 0.25 0.006 0.010 c 0.08 0.25 0.003 0.010 c1 0.08 0.20 0.003 0.008 D 1.90 2.15 0.074 0.084 E 2.00 2.20 0.078 0.086 E1 1.15 1.35 0.045 0.055 e 0.65BSC 0.0255BSC e1 1.30BSC 0.0512BSC L A2 A SEATING PLANE .10(0.004) A1 C Detail A INCHES MIN C A MILLIMETERS 0.26 θ1 0 o θ2 4 o 0.46 o 8 10 o 0.010 0.018 0 o 8 o 4 o 10 o C Section A-A θ1 (b) b1 c1 c .15(.0059) H GAGE PLANE BASE METAL θ L Rev.I.01 27 www.ame.com.tw E-Mail: [email protected] Life Support Policy: These products of AME, Inc. are not authorized for use as critical components in life-support devices or systems, without the express written approval of the president of AME, Inc. AME, Inc. reserves the right to make changes in the circuitry and specifications of its devices and advises its customers to obtain the latest version of relevant information. AME, Inc. , November 2009 Document: 2051-DS8550-I.01 Corporate Headquarter AME, Inc. 2F, 302 Rui-Guang Road, Nei-Hu District Taipei 114, Taiwan, R.O.C. Tel: 886 2 2627-8687 Fax: 886 2 2659-2989