CLCA LP154W01-TLA2_Source Line Defect_060410( Mitac)

CB-832Circuit Breaker and Overload Relay Test SetsDigital memory ammeter sDigital multirange timer sHigh-current outputsSolid-state output initiate circuitCB-832Circuit Breaker and Overload Relay Test SetDESCRIPTIONThe CB-832 test se is a high-current circuit breaker and overload relay test set. Model CB-832 is designed to test the circuit breaker and overload relays by means of primary current injection.The CB-832 is a self-contained test set that incorporates a variable high-current output and appropriate controlcircuitry and instrumentation for testing thermal, magnetic or solid-state motor overload relays; molded-case circuit breakers; and ground-fault trip devices.APPLICATIONSOne of the most common applications of the CB-832 is the calibration of magnetic overload relays, such as thoseused for protecting air conditioning systems. By providing up to 1000 amperes to simulate overload conditions, it also is capable of testing the time-delay characteristic of magnetic overload relays rated up to 500 amperes.In addition, the CB-832 can test the time-delaycharacteristics of thermal motor overload relays and molded-case circuit breakers rated up to 225 amperes,when following the recommended test procedure of testing the time delay of thermal devices at three times their rating.Higher currents are available for the short durations required to test an instantaneous trip element. Forexample, the test set will provide a short-duration output of 1800 amperes through a typical 225 ampere, molded-case circuit breaker. Additional applications include verifying the ratio of current transformers and testing panelboard ammeters and voltmeters.FEATURES AND BENEFITSs Digital memory ammeter:High-accuracy, direct-reading instrumenthas read-and-hold memory for measurement of short-duration currents.sDigital multirange timer:Crystal-controlled, high-accuracy instrument measures operating time to 1millisecond.sHigh output current:Provides instantaneous currents up to 1800 amperes through a 225-ampere breaker.sSolid-state output initiate circuit:Solid-state circuit eliminates the need for contact maintenance.sProtection:Overload and short-circuit protection is incorporated.sEnclosure:Heavy-duty Formica enclosure is equipped with carrying handles and removable hinged cover that protects instruments and controls during transportation and storage. Space is provided for test lead storage.SPECIFICATIONSInput (specify one)120 V OR 240 V , 50/60 Hz, 1fOutputOutput Ranges:Continuously adjustable in three ranges to meet a variety of test circuit impedances:0 to 500 A at 3.5 V max.0 to 125 A at 14 V max.0 to 25 A at 70 V max.1981CB-832Circuit Breaker and Overload Relay Test SetOutput Capacity:The output circuit is designed to provide short-duration overloads.The output ranges will provide several times their current rating,provided the output voltage is sufficient to push the desired current through the impedance of the test circuit.The test set is capable of testing the time-delay characteristics of magnetic overload relays rated to 500 A using a test current of two times their rating (1000 A).avoid damage or overheating of the device under test while setting the test current.In the maintained mode, the output remains energized until manually turned off or, when performing timing tests, until the device under test operates—this both stops the timer and de-energizes the output.INSTRUMENTATIONAmmeterT o measure the output current, the test set incorporates a solid-state digital instrument with multiple ranges and a read-and-hold memory to measure short-duration currents.Operating Modes (switch-selected)Memory NormalDigital Display31/2digit, extra-bright LED display with 0.3-in. (7.62 mm) numerals Ranges (switch-selected)0 to 19.99/199.9/1999 A/3.00 kAContinuous Accuracy (overall ammeter system)±1% of reading, ±1 digit on three high ranges, ±1 digit on low range ±1% of rangeTimerA solid-state digital timer is incorporated to measure the elapsed time of the test in either seconds or cycles.It uses a crystal-controlled oscillator, therefore, its accuracy is independent of the line frequency.Display:5-digit, extra-bright LED display with 0.3 in. (7.62 mm)numeralsRanges (switch-selected)0 to 99.999 s 0 to 999.99 s 0 to 99999 cyclesAccuracy±0.005% of reading, ±1 digitTimer Control CircuitThis circuit automatically starts the timer when the output isenergized and automatically stops the timer and de-energizes the output when the device under test operates.This circuit accommodates the following test conditions by simple switch selection of the appropriate mode:Current Actuated:Used to test a device that has no auxiliary contacts to monitor, such as a single-pole circuit breaker. The timer stops when the output current is interrupted.Normally Closed:Used to test a device with normally closed contacts. The timer stops and the output is de-energized when the contacts open.Normally Open:Used to test a device with normally opencontacts. The timer stops and the output is de-energized when the contacts close.Dimensions14 H x 14.5 W x 13.4 D in.(356 H x 368 W x 343 D mm)Weight75 lb (34.1 kg)Overload CapabilityPercent Maximum Maximum Rated Time Time CurrentOnOff100 (1x)30 min 30 min 200 (2x) 3 min 8 min 300 (3x)30 s 4 min 400 (4x)7 s 2 minIt will test the time-delay characteristic of thermal devices rated up to 225 A using the recommended test current of three times their rating (675 A).Also, to perform an instantaneous trip test, it will provide 1800 A through a typical 225-ampere, molded-case circuit breaker.Overload Capability:T o increase use of the test set, it is designed so that the current ratings may be exceeded for short durations. Because the magnitude of the output current is determined by the impedance of the load circuit, the voltage rating must be sufficient to push the desired current through the device under test and the connecting test leads.Output Initiate Circuit:The test set uses a solid-state output initiating circuit. T o increase reliability and eliminate contact maintenance, this circuit uses a triac instead of a contactor to initiate the output.Output Initiate Control Circuit:The initiating control circuit provides momentary and maintained modes to control output duration.The momentary mode is used whenever the output is to be for a short duration. An example is an instantaneous trip test, or toUKArchcliffe Road Dover CT17 9EN EnglandT +44 (0) 1304 502101 F +44 (0) 1304 207342UNITED STATES 4271 Bronze WayDallas TX75237-1088 USA T 800 723 2861 (USA only) T +1 214 330 3203 F +1 214 337 3038OTHER TECHNICAL SALES OFFICES Valley Forge USA, Toronto CANADA,Mumbai INDIA, Trappes FRANCE,Sydney AUSTRALIA, Madrid SPAIN and the Kingdom of BAHRAIN.Registered to ISO 9001:2000 Reg no. Q 09290Registered to ISO 14001 Reg no. EMS 61597CB832_DS_en_V10Megger is a registered trademark。

Esterline CorporationUnit 602-603, 6/F, Lakeside 1, No.8 Science Park West Avenue, Hong Kong Science Park Phase II, N.T., Hong Kong Tel : 852-2191-3830852-2191-2886852-2541-3079 Fax : 852-2389-5803 Relays from France Current Series Device, Form, Nominal Resistive Load0.5A 0.5A1A 1A2A 2A 2A 2A 2A 2A 2A 2A 2A5A 5A 5A 5A 5A 5A10A 10A 10A 10A 10A 10A 10A 065*I065*DDEGP2/GP2AGP250GP4F250GP5W260WB260GP52WN460M212M222M210XAM220YAM302M232M402M215FD3009330M300RELAY LATCH, 2PDT, 0.5A@28VDCRELAY NONLATCH, 2PDT, 0.5A@28VDCRELAY LATCH, 2PDT, 1A@28VDCRELAY NONLATCH, 2PDT, 1A@28VDCRELAY LATCH, 2PDT, 2A@28VDCRELAY LATCH, 2PDT, 2A@50VDCRELAY LATCH, 4PDT, 2A@28VDCRELAY NONLATCH, 2PDT, 2A@28VDCRELAY NONLATCH, 2PDT, 2A@28VDCRELAY NONLATCH, 2PDT, 2A@28VDCRELAY NONLATCH, 2PDT, 2A@28VDC (BIFILAR COIL)RELAY NONLATCH, 4PDT, 2A@28VDCRELAY NONLATCH, 4PDT, 2A@28VDCRELAY LATCH, 2PDT, 5A@28VDCRELAY LATCH, 4PDT, 5A@28VDCRELAY NONLATCH, 2PDT, 5A@28VDCRELAY NONLATCH, 2PDT, 5A@28VDC - AC COILRELAY NONLATCH, 4PDT, 5A@28VDCRELAY NONLATCH, 4PDT, 5A@28VDC - AC COILRELAY LATCH, 2PDT, 10A@28VDCRELAY LATCH, 3PDT, 10A@28VDCRELAY LATCH, 4PDT, 10A@28VDCRELAY NONLATCH, 1PDT, 10A@28VDCRELAY NONLATCH, 1PDT NC-NO(DB-DM), 10A@VDCRELAY NONLATCH, 2PDT, 10A@28VDCRELAY NONLATCH, 2PDT, 10A@28VDCEsterline CorporationUnit 602-603, 6/F, Lakeside 1, No.8 Science Park West Avenue, Hong Kong Science Park Phase II, N.T., Hong Kong Tel : 852-2191-3830852-2191-2886852-2541-3079 Fax : 852-2389-5803 10A 10A 10A 10A 10A 10A 10A 10A 10A15A25A 25A 25A 25A 25A 25A 25A 25A 25A 25A50A M301FD400M230YCAFD600M400M401F600F6019274JCLM502KDLM320M500M5019339M55093249325M520RELAY NONLATCH, 2PDT, 10A@28VDC - AC COILRELAY NONLATCH, 2PDT NC-NO(DB-DM), 10A@56VDCRELAY NONLATCH, 3PDT, 10A@28VDCRELAY NONLATCH, 3PDT, 10A@28VDC - AC COILRELAY NONLATCH, 3PDT NC-NO(DB-DM), 10A@56VDCRELAY NONLATCH, 4PDT, 10A@28VDCRELAY NONLATCH, 4PDT, 10A@28VDC - AC COILRELAY NONLATCH, 6PDT, 10A@28VDCRELAY NONLATCH, 6PDT, 10A@28VDC - AC COILRELAY LATCH, 4PDT, 15A@28VDCRELAY LATCH, 1PDT, 25A@28VDCRELAY LATCH, 3PDT, 25A@28VDCRELAY LATCH, 3PSTNO+1PDT, 25A@28VDCRELAY NONLATCH, 1PDT, 25A@28VDCRELAY NONLATCH, 3PDT, 25A@28VDCRELAY NONLATCH, 3PDT, 25A@28VDC - AC COILRELAY NONLATCH, 3PSTNO+1PDT+AUX, 25A@28VDCRELAY NONLATCH, 3PSTNO+1PDT, 25A@28VDCRELAY NONLATCH, 3PSTNO, 25A@28VDCRELAY NONLATCH, 6PSTNO OR 3PDT-CO, 25A@28VDCRELAY NONLATCH, 1PSTNO(DM), 50A@28VDCEsterline CorporationUnit 602-603, 6/F, Lakeside 1, No.8 Science Park West Avenue, Hong Kong Science Park Phase II, N.T., Hong Kong Tel : 852-2191-3830852-2191-2886852-2541-3079 Fax : 852-2389-5803 Contactors from France Current Series Device, Form, Nominal Resistive Load25A30A 30A 30A30A 50A 50A50A 50A50A 55A 60A 60A 60A 60A 60A 9123HB36-170304030HC,HCD,HCP91257064-4653705591247064-46568062HL,HLT,HLD,HLP8062-20H,HD,HP,HT,HDT,HPT5060CONTACTOR NONLATCH, 3PSTNO(DM)+AUX, 25A@28VDCCONTACTOR BUSBAR, 50A@115VAC/400HZCONTACTOR NONLATCH, 2PSTNO(DM)+AUX, 30A@28VDCCONTACTOR NONLATCH, 3PDT(DM-DB)+AUX,30A@115VAC/400HZCONTACTOR NONLATCH, 3PSTNO(DM)+AUX,30A@115VCA/400HZCONTACTOR CENTER OFF, 3PDT CO+AUX TO1PST(DM)CO+AUX, 50A@28VDCCONTACTOR NONLATCH OR CENTER OFF, 3PSTNO(DM)COTO 6PSTNO(DM), 50A@28VDCCONTACTOR NONLATCH, 1PSTNO(DM), 50A@28VDCCONTACTOR NONLATCH, 3PDT(DB-DM)+AUX,50A@115VAC/400HZCONTACTOR NONLATCH, 3PSTNO(DM)+AUX, 50A@28VDCCONTACTOR NONLATCH, 2PST DM, 55A@28VDCCONTACTOR CENTER OFF, 3PST(DM)CO+AUX,60A@115VAC/400HZCONTACTOR LATCH, 3PDT+AUX TO 1PDT(DB-DM)+AUX,60A@115VAC/400HZCONTACTOR NONLATCH, 3OR6PSTNO(DM)CO+AUX,60A@115VAC/400HZCONTACTOR NONLATCH, 3PDT+AUX TO 1PDT(DB-DM)+AUX,60A@115VAC/400HZCONTACTOR NONLATCH, 3PSTNO(DM)+AUX,60A@115VAC/400HZEsterline CorporationUnit 602-603, 6/F, Lakeside 1, No.8 Science Park West Avenue, Hong Kong Science Park Phase II, N.T., Hong Kong Tel : 852-2191-3830852-2191-2886852-2541-3079 Fax : 852-2389-5803 60A80A 80A90A90A 100A100A 100A100A120A120A120A125A 125A 125A 125A145A 8062-107779LCLZC, ZCD92139207A270-100ZL, ZLDZ, ZD5120129107109106ZGCONTACTOR NONLATCH, 3PSTNO(DM)+AUX,60A@115VAC/400HZCONTACTOR NONLATCH, 1PSTNO(DM), 80A@28VDCCONTACTOR NONLATCH, 1PSTNO(DM)+AUX, 80A@28VDCCONTACTOR CENTER OFF, 3PDT CO+AUX TO1PST(DB)CO+AUX, 90A@115VAC/400HZCONTACTOR NONLATCH, 3PDT+AUX TO1PDT(DB-DM)+AUX, 90A@115VAC/400HZCONTACTOR CENTER OFF, 3PDT CO+AUX TO1PST(DB)CO+AUX, 100A@115VAC/400HZCONTACTOR NONLATCH, 3PSTNO(DM)+AUX, 100A@28VDCCONTACTOR NONLATCH, 4PSTNO(DM) TO 2PDT(DB-DM),100A@28VDCCONTACTOR, 270VDC, 1PST DM, 100A@270VDCCONTACTOR LATCH, 3PDT+AUX TO 1PDT(DB-DM)+AUX,120A@115VAC/400HZCONTACTOR NONLATCH, 3PDT+AUX TO 1PDT(DB-DM)+AUX,120A@115VAC/400HZCONTACTOR NONLATCH, 3PSTNO(DM)+AUX,120A@115VAC/400HZCONTACTOR NONLATCH, 1PDT(DB-DM)+AUX, 125A@28VDCCONTACTOR NONLATCH, 1PSTNO(DM)+AUX, 125A@28VDCCONTACTOR NONLATCH, 1PSTNO(DM)+AUX, 125A@28VDCCONTACTOR NONLATCH, 2PSTNO(DM)+AUX, 125A@28VDCCONTACTOR NONLATCH, 3PDT+AUX TO 1PDT(DB-DM)+AUX,145A@115VAC/400HZEsterline CorporationUnit 602-603, 6/F, Lakeside 1, No.8 Science Park West Avenue, Hong Kong Science Park Phase II, N.T., Hong Kong Tel : 852-2191-3830852-2191-2886852-2541-3079 Fax : 852-2389-5803 180A 200A200A 200A 200A 200A 200A 200A 200A250A 275A 275A 275A300A 300A 300A320A 320A400A ZJ520202192077264-4654209CC02**P2064190-3WCWBWLW32832930630730952040 M4CONTACTOR NONLATCH, 3PDT+AUX TO 1PDT(DB-DM)+AUX,180A@115VAC/400HZCONTACTOR CIRCUIT BREAKER, 1PSTNO(DM)+AUX,200A@28VDCCONTACTOR NONLATCH, 1PSTNO(DB)+AUX, 200A@28VDCCONTACTOR NONLATCH, 1PSTNO(DM), 200A@28VDCCONTACTOR NONLATCH, 1PSTNO(DM), 200A@28VDCCONTACTOR NONLATCH, 1PSTNO(DM)+AUX, 200A@28VDCCONTACTOR NONLATCH, 1PSTNO(DM)+AUX, 200A@28VDCCONTACTOR NONLATCH, 2PSTNO(DM)+AUX, 200A@28VDCCONTACTOR NONLATCH, 3PSTNO(DM)+AUX,200A@115VAC/400HZCONTACTOR CENTER OFF, 3PDT CO+AUX TO1PST(DM)CO+AUX, 250A@115VAC/400HZCONTACTOR BUSBAR, 3PST+AUX,275A@115VAC/400HZCONTACTOR LATCH, 3PDT+AUX TO 1PDT(DB-DM)+AUX,275A@115VAC/400HZCONTACTOR NONLATCH, 3PDT+AUX TO 1PDT(DB-DM)+AUX,275A@115VAC/400HZCONTACTOR NONLATCH, 1PDT(DB-DM)+AUX, 300A@28VDCCONTACTOR NONLATCH, 1PDT(DB-DM)+AUX, 300A@28VDCCONTACTOR NONLATCH, 2PSTNO(DM)+AUX, 300A@28VDCCONTACTOR NONLATCH, 1PSTNO(DM), 320A@28VDCCONTACTOR NONLATCH, 1PSTNO(DM)+AUX, 320A@28VDCCONTACTOR CIRCUIT BREAKER, 1PSTNO(DM)+AUX,400A@28VDCEsterline CorporationUnit 602-603, 6/F, Lakeside 1, No.8 Science Park West Avenue, Hong Kong Science Park Phase II, N.T., Hong Kong Tel : 852-2191-3830852-2191-2886852-2541-3079 Fax : 852-2389-5803 400A 400A 400A500A 500A 500A 500A 500A700A 700A 700A 7401-4658AJCC04**PCC0519 P50750942006509IM 707M 708M708ICONTACTOR NONLATCH, 1PSTNO(DM), 400A@28VDCCONTACTOR NONLATCH, 1PSTNO(DM), 400A@28VDCCONTACTOR NONLATCH, 1PSTNO(DM)+AUX, 400A@28VDCCONTACTOR NONLATCH, 1PSTNO(DB)+AUX, 500A@28VDCCONTACTOR NONLATCH, 1PSTNO(DM), 500A@28VDCCONTACTOR NONLATCH, 1PSTNO(DM)+AUX, 500A@28VDCCONTACTOR NONLATCH, 2PSTNO(DM)+AUX, 500A@48VDCCONTACTOR NONLATCH, INTERMITTENT, 1PSTNO(DM),500A@28VDCCONTACTOR NONLATCH, 1PSTNO(DM), 700A@28VDCCONTACTOR NONLATCH, 1PSTNO(DM)+AUX, 700A@28VDCCONTACTOR NONLATCH, INTERMITTENT, 1PSTNO(DM)+AUX,500A@28VDCEsterline CorporationUnit 602-603, 6/F, Lakeside 1, No.8 Science Park West Avenue, Hong Kong Science Park Phase II, N.T., Hong Kong Tel : 852-2191-3830852-2191-2886852-2541-3079 Fax : 852-2389-5803 Relays from the USA Current Series Device, Form, Nominal Resistive Load0.5A 0.5A1A 1A2A 2A 2A 2A 2A 2A 2A5A 5A 5A 5A 5A 5A10A 10A 10A 10A 10A 10A 10A 10A 10A 065*D065*IDEGP2/GP2AGP250GP4F250GP5W260WN460XLYLXXAYYAXCLYCLJS/JSAXC9330JAYCYCAKARELAY NONLATCH, 2PDT, 0.5A@28VDCRELAY LATCH, 2PDT, 0.5A@28VDCRELAY LATCH, 2PDT, 1A@28VDCRELAY NONLATCH, 2PDT, 1A@28VDCRELAY LATCH, 2PDT, 2A@28VDCRELAY LATCH, 2PDT, 2A@50VDCRELAY LATCH, 4PDT, 2A@28VDCRELAY NONLATCH, 2PDT, 2A@28VDCRELAY NONLATCH, 2PDT, 2A@28VDCRELAY NONLATCH, 2PDT, 2A@28VDCRELAY NONLATCH, 4PDT, 2A@28VDCRELAY LATCH, 2PDT, 5A@28VDCRELAY LATCH, 4PDT, 5A@28VDCRELAY NONLATCH, 2PDT, 5A@28VDCRELAY NONLATCH, 2PDT, 5A@28VDCRELAY NONLATCH, 4PDT, 5A@28VDCRELAY NONLATCH, 4PDT, 5A@28VDCRELAY LATCH, 1PDT, 10A@28VDCRELAY LATCH, 3PDT, 10A@28VDCRELAY NONLATCH, 1PDT, 10A@28VDCRELAY NONLATCH, 1PDT, 10A@28VDCRELAY NONLATCH, 2PDT, 10A@28VDCRELAY NONLATCH, 2PDT, 10A@28VDCRELAY NONLATCH, 3PDT, 10A@28VDCRELAY NONLATCH, 3PDT, 10A@28VDCRELAY NONLATCH, 4PDT, 10A@28VDCEsterline CorporationUnit 602-603, 6/F, Lakeside 1, No.8 Science Park West Avenue, Hong Kong Science Park Phase II, N.T., Hong Kong Tel : 852-2191-3830852-2191-2886852-2541-3079 Fax : 852-2389-5803 10A 10A12A 12A 12A 12A15A25A 25A 25A 25A 25A 25A 25A 25A 25A 25A 25A50A75A 75A 75A F600F601JLKLJK9274JCLKCLKDLJC AND JCAKCKCA9325KDKDA93249339KMKXLKXKXDRELAY NONLATCH, 6PDT, 10A@28VDCRELAY NONLATCH, 6PDT, 10A@28VDCRELAY LATCH, 2PDT, 12A@28VDCRELAY LATCH, 4PDT, 12A@28VDCRELAY NONLATCH, 2PDT, 12A@28VDCRELAY NONLATCH, 4PDT, 12A@28VDCRELAY LATCH, 4PDT, 15A@28VDCRELAY LATCH, 1PDT, 25A@28VDCRELAY LATCH, 3PDT, 25A@28VDCRELAY LATCH, 3PST/NO+AUX, 25A@28VDCRELAY NONLATCH, 1PDT, 25A@28VDCRELAY NONLATCH, 3PDT, 25A@28VDCRELAY NONLATCH, 3PDT, 25A@28VDC-AC COILRELAY NONLATCH, 3PDT/CO, 25A@28VDCRELAY NONLATCH, 3PST/NO+AUX, 25A@28VDCRELAY NONLATCH, 3PST/NO+AUX, 25A@28VDCRELAY NONLATCH, 3PST/NO, 25A@28VDCRELAY NONLATCH, 3PST/NO, 1PDT+AUX, 25A@28VDCRELAY NONLATCH, 1PST DM, 50A@28VDCRELAY LATCH, 1PST/NO DM, 75A@28VDCRELAY NONLATCH, 1PST/NO DM, 75A@28VDCRELAY NONLATCH, 1PST/NO DM+AUX, 75A@28VDCEsterline CorporationUnit 602-603, 6/F, Lakeside 1, No.8 Science Park West Avenue, Hong Kong Science Park Phase II, N.T., Hong Kong Tel : 852-2191-3830852-2191-2886852-2541-3079 Fax : 852-2389-5803 Contactors from the USA Current Series Device, Form, Nominal Resistive Load25A50A 50A 50A50A 50A55A60A 60A 60A80A90A 90A100A 100A 100A 100A 100A120A 120A125A 9123HBHC,HCD,HCP91257064-465391247064-4656HL,HLT,HLD,HLPH,HD,HP,HT,HDT,HPTZE-X9YN77LCLZ-X9YNZC, ZCD92079213A270-100ZL, ZLDZ, ZD129CONTACTOR NONLATCH, 3PST DM, 25A@28VDCCONTACTOR BUSBAR, 50A@115VAC/400HZCONTACTOR CENTER OFF, 50A@115VAC/400HZCONTACTOR NONLATCH INTERLOCK, (3PST DM CO)X2,50A@28VDCCONTACTOR NONLATCH, 1PST DM, 50A@28VDCCONTACTOR NONLATCH, 3PST DM, 50A@28VDCCONTACTOR NONLATCH, 2PST DM, 55A@28VDCCONTACTOR LATCH, 60A@115VAC/400HZCONTACTOR NONLATCH, 60A@115VAC/400HZSMART PLUG-IN CONTACTOR, NONLATCH, 3PST 60A@115VAC/400HZCONTACTOR NONLATCH, 1PST DM, 80A@28VDCCONTACTOR CENTER OFF, 90A@115VAC/400HZCONTACTOR NONLATCH, 90A@115VAC/400HZPLUG-IN CONTACTOR, NONLATCH, 3PDT 100A@115VAC/400HZCONTACTOR CENTER OFF, 100A@115VAC/400HZCONTACTOR NONLATCH, 100A@28VDCCONTACTOR NONLATCH, 3PST DM, 100A@28VDCCONTACTOR, 270VDC, 1PST DM, 100A@270VDCCONTACTOR LATCH, 120A@115VAC/400HZCONTACTOR NONLATCH, 120A@115VAC/400HZCONTACTOR NONLATCH, 1PST DB-DM+AUX, 125A@28VDCEsterline CorporationUnit 602-603, 6/F, Lakeside 1, No.8 Science Park West Avenue, Hong Kong Science Park Phase II, N.T., Hong Kong Tel : 852-2191-3830852-2191-2886852-2541-3079 Fax : 852-2389-5803 145A175A 180A200A 200A 200A250A275A 275A 275A 275A385A400A 400A 400A 400A500A 700A ZGWE-X2YNZJCC02**P2197264-4654WCWBWLWW-X9YNWL-X9YNCC04**P7401-4658AJCC0519P507M 707CONTACTOR NONLATCH, 145A@115VAC/400HZSMART PLUG-IN CONTACTOR, NONLATCH, 175A@115VAC/400HZCONTACTOR NONLATCH, 180A@115VAC/400HZBUS BAR CONTACTOR 1PST DM+AUX, 200A@28VDCCONTACTOR NONLATCH, 1PST DB+AUX, 200A@28VDCCONTACTOR NONLATCH, 1PST DM, 200A@28VDCCONTACTOR CENTER OFF, 250A@15VAC/400HZCONTACTOR BUSBAR, 275A@115VAC/400HZCONTACTOR LATCH, 275A@115VAC/400HZCONTACTOR LATCH, 275A@115VAC/400HZPLUG-IN CONTACTOR, NONLATCH, 275A@115VAC/400HZPLUG-IN CONTACTOR, LATCH, 385A@115VAC/400HZBUS BAR CONTACTOR, 1PST DM+AUX, 400A@28VDCCONTACTOR NONLATCH, 1PST DM, 400A@28VDCCONTACTOR NONLATCH, 1PST DM, 400A@28VDCCONTACTOR NONLATCH, 1PST DB+AUX, 500A@28VDCCONTACTOR NONLATCH, 1PST DM, 500A@28VDCCONTACTOR NONLATCH, 1PST DM, 700A@28VDC。

DLRO 10 and DLRO 10X Digital MicrohmmeterDESCRIPTIONDLRO 10 and DLRO 10X set the standards for low resistance measurement. DLRO 10 and DLRO 10X are fully automatic instruments, selecting the most suitable test current up to 10 A d.c. to measure resistance from 0.1 µΩ to 2000 Ω, on one of seven ranges.For users who desire more control over the measurement process, DLRO 10X uses a menu system controlled by a two-axis paddle to allow the user to manually select the maximum test current.DLRO 10X also adds real time download of results and on board storage for later download to a PC.Both instruments are built into a strong, lightweight case that is equally at home in the field or in the laboratory. Light enough to be worn around the neck, they are small enough to be taken into areas that were previously too small to access.DLRO 10 uses a large, bright 4 1/2 -digit LED display while DLRO 10X has a large, backlit LCD display. Normally, measurements are made with forward and reverse currents to cancel the effects of any standing voltages across the test sample.The average value is then displayed within 3 seconds, to a basic accuracy of 0.2%. DLRO 10X displays both forward and reverse measurements as well as the average of the two.DLRO 10X allows the user to set high and low pass limits, thereby enabling simple go-no-go testing.At the end of a test DLRO10X will store the test results, as well as any notes relevant to the test.To assist operator safety and ease of use, both instruments are supplied complete with a pair of duplex handspikes with 1.2 m (4 ft) leads. One of the probes is fitted with LED’s, which duplicate indicators on the instrument display indicating that all four contacts have been made, the presence of a high voltage across the load, and the presence of current flow while a load is discharging. A full range of test leads is available with probes, clamps and Kelvin clips. The instruments are supplied as standard with a Nickel Metal Hydride (NiMH) battery pack. The battery packs are inter- changeable so that an exhausted battery may be recharged using the external charger supplied while testing continues using a spare pack. Although full charging will take 4 hours, a fast charge mode allows the battery to be 90% charged within 2 1/2 hours from a 12 volt battery or from a standard 120/230 V AC supply via the supplied charger. The battery pack contains its own battery state indicator, which allows the charge-state to be monitored, even without being connected to the instrument.In addition an optional mains / line power supply, the DLRO10LPU is available. This enables the instruments to be directly powered from 90V to 264V, 50/60Hz ideal for repetitive testing applications such as manufacturing production line use.”DLRO 10X is fitted with RS232 communications that will allow results to be downloaded in real time or stored for later retrieval. Up to 700 sets of results may be stored within DLRO 10X complete with notes containing up to 200 characters which may be added using the on board keypad. These results can also be downloaded to a PC.n Auto current reversal cancels standing emfsn Protected to 600 Vn Automatically detects continuity in potential and current connectionsn Multiple operating modes including fully automaticn Alpha-numeric keypad for entering test notes (DLRO 10X)n User selectable high and low limits (DLRO 10X)n Printer output and memory (DLRO 10X)DLRO 10 AND DLRO10XDigital Microhmmeter 1981DLRO 10 AND DLRO 10XDigital MicrohmmeterMEASUREMENT MODES:A variety of measurement modes are available. Since the introductionof V2.0 firmware, Normal, Auto, Continuous and Inductive mode areavailable on both the DLRO 10 and the DLRO 10X.DLRO 10 will display the average of the measurements achievedusing forward and reverse current, while DLRO 10X displays bothindividual measurements and the average.Normal mode initiates a test by pressing the Test button on theinstrument front panel after connecting the test leads. Continuityof all four connections is checked, forward and reverse currentsare applied.Auto mode allows forward and reverse current measurements tobe made and the average displayed simply by making contact withall four probes. This mode is ideal when working with the suppliedhandspikes. Each time the probes are removed and reconnected tothe load another test will be performed without the need to pressthe test button on the instrument.Continuous mode allows repeated measurements to be madeon the same sample. Simply connect the test leads and press thetest button. The measurement is updated every 3 seconds until thecircuit is broken.Inductive mode is intended for use when measuring inductiveloads. When measuring inductive loads it is necessary to wait forthe voltage to stabilise. This means that the measurement couldtake a few seconds or several minutes. The test leads are firmlyconnected to the item to be measured and the Test button ispressed. The instrument will pass a current through the sampleand wait for the voltage to stabilise. If possible the current willbe increased. This procedure will be repeated until the voltagedetected falls into the range 15 mV to 200 mV. The instrument willthen continue to take readings, which will gradually decrease to thetrue value as the voltage stabilises further. The operator decideswhen the result is stable and presses the test button to terminatethe test. Measurement is made with forward current only.Unidirectional mode, on DLRO 10X only, applies a current in onedirection only. This does not enable any standing emfs to be negatedbut speeds up the measurement process. Test starts automaticallywhen probes are connected.APPLICATIONSThe needs for accurate low resistance measurement are wellknown and very diverse. They range through Goods Receivinginspection of components to ground bonding and welded joints.Typical applications include, but are not limited to, making d.c.resistance measurements of:n Switch and contact breaker resistancen Busbar and cable jointsn Aircraft frame bonds and static control circuitsn Integrity of welded jointsn Inter-cell connections on battery systems up to 600 V peakn Quality control of resistive componentsn Transformer and motor winding resistancen Rail and pipe bondsn Metal alloys, welds and fuse resistancen Graphite electrodes and other compositesn Wire and cable resistancen Transmitter aerial and lightning conductor bondingFEATURES AND BENEFITSn Small, lightweight and portable - can be used in tight places,reduces the need for extra long leads and two person operation.n Four terminal resistance method shows the true resistance of theitem under test.n Bright LED (DLRO 10) and LCD (DLRO 10X) displays are easilyvisible under all lighting conditions and reduce human error.n Automatically applies forward and reverse currents which cancelout any standing voltages across the sample under test.n Checks for undue noise during measurement, reducing thepossibility of recording the incorrect result.n Automatically detects continuity in P and C circuits, preventingerroneously high reading to be taken due to high resistance con-tact.n Battery module has a battery condition indicator allowing the userto check the state of spare batteries without connecting to theinstrument.n RS232 connector on the DLRO 10X allows downloading of resultsin real time or stored for later retrieval.DLRO 10 AND DLRO 10XDigital Microhmmeter Full Scale1.9999 mΩ19.999 mΩ199.99 mΩ1.9999 Ω19.999 Ω199.99 Ω1999.9 ΩResolution0.1 µΩ1 µΩ10 µΩ100 µΩ1 mΩ10 mΩ100 mΩAccuracy*±0.2% ±0.2µΩ±0.2% ±2 µΩ±0.2% ±20 µΩ±0.2% ±0.2 mΩ±0.2% ±2 mΩ±0.2% ±20 mΩ±0.2% ±0.2 ΩResistive20 mV20 mV20 mV20 mV20 mV20 mV200 mVInductiven/a20 mV200 mV200 mV200 mV200 mV200 mVResistive10 A1 A100 mA10 mA1 mA100 µA100 µAInductiven/a1 A1 A100 mA10 mA1 mA100 µAResistance ranges Test currentDLRO 10DLRO 10XMeasurement: Mode:Manual, Auto, Continuous, Inductive Manual, Auto, Continuous, Inductive,UndirectionalControl:Fully Automatic Fully Automatic/ManualSpeed:<3s for forward & reverse current and to display averageDisplay: Measurement: 4 1/2 digit seven segment LEDRange and Safety:LED indication Large backlit LCDTest Method: Single cycle reversing d.c. ratiometric measurement -average result display.Test Current: Accuracy:±10%Stability:<10 ppm per secondMaximum Lead Resistance:100 mΩ total for 10 A operation irrespective of batterycondition.Voltmeter input impedance:> 200 kΩHum rejection:Less than 1% ±20 digits additional error with 100 mV peak 50/60 Hz. on the potential leads.Warning will show if hum or noise exceeds this level.Data:Transfer:Real Time or from storage via RS232Storage:700 testsMemo Field:Up to 200 characters per test via integralalphanumeric keypadBattery: Capacity:7 Ah NiMH rechargeableLife:Typically 1000 x 10 A tests before rechargeRecharge:Via external 90 V - 260 V 50/60 Hz charger or from 12 to 15 V dc supplyCharging Rate: Standard: 2.5 hours to 90% capacity, 4 hrs for full chargeTemperature:Operation:+5 ºC to +45 ºC (41 ºF to 113 ºF) at full specification-10 ºC to +50 ºC (14 ºF to 122 ºF) at reduced accuracyStorageCo-efficient:-30 ºC to +70 ºC (-22 ºF to 158 ºF)Slow charging:<0.01% per ºC over range 5 ºC to 40 ºC (<0.006% per ºF from 4 1ºF to 104 ºF)Humidity (max):+10 ºC to +45 ºC (50 ºF to 113 ºF)Altitude (max):90% RH @ 40 ºC (104 ºF) non-condensingSafety:2000 m (6562 ft) to full safety specificationsEMC:In accordance with IEC61010-1 600 V Category III - only when DH6 leads are used.In accordance with IEC61326-1Dimensions:220 x 100 x 237 mm (8.6 x 4 x 9.5 in)Weight: 2.6 kg (5 3/4 lb.) including battery module* The accuracy stated assumes forward and reverse measurements.Inductive mode or undirectional mode will introduce an undefined error if an external EMF is present.Full scale voltsDLRO 10 AND DLRO 10XUKArchcliffe Road Dover CT17 9EN England T +44 (0) 1304 502101F +44 (0) 1304 207342******************UNITED STATES 4271 Bronze WayDallas TX 75237-1019 USA T 800 723 2861 (USA only)T +1 214 333 3201F +1 214 331 7399******************OTHER TECHNICAL SALES OFFICESValley Forge USA, College Station USA, Sydney AUSTRALIA, Täby SWEDEN, Ontario CANADA, Trappes FRANCE, Oberursel GERMANY, Aargau SWITZERLAND, Kingdom of BAHRAIN, Mumbai INDIA, Johannesburg SOUTH AFRICA, Chonburi THAILAND, Malaga SPAINRegistered to ISO 9001:2008 Cert. no. Q 09250 Registered to ISO 14001-2004 Cert. no. EMS 61597DLR10_DLRO10X_DS_en_Megger is a registered trademarkOPTIONAL MAINS / LINE POWER SUPPLY UNITThe DLRO10 and DLRO10X may also be powered from an optional mains / line power supply unit the DLRO10LPU. This unit is simply fitted to the instrument in place of the standard battery pack.When in use a red LED is illuminated when theinstrument is powered from a mains / line power supplyThe DLRO10X is seen here fitted with the optional DLRO10LPUIdeal for repetitive testing applications such as manufacturing production line use。

8W,DIY AC/DC converterRoHSFEATURES●Ultra-wide 85-305VAC and 100-430VDC input voltage range ●Accepts AC or DC input (dual-use of same terminal)●Operating ambient temperature range:-40℃~+85℃●Multi-application available,flexible layout ●High power density,high reliability●Low power consumption,green power●Output short circuit,over-current protection●Designed to meet IEC/EN/UL62368safety standards (Pending)●Designed to meet IEC/EN/UL60335safety standardsLS08-13BxxSS series is one of Mornsun’s highly efficient green power AC-DC Converter series.They feature ultra-wide wide input rangeaccepting either AC or DC voltage,high efficiency,low power consumption and CLASS II reinforced insulation.All models are particularly suitable for industrial control,electric power,instrumentation and smart home applications which don’t have high requirement for dimension.A variety of EMC external circuits meet the needs of multiple industries.Input SpecificationsItemOperating Conditions Min.Typ.Max.Unit Input Voltage Range AC input 85--305V AC DC input100--430VDC Input Frequency 47--63HzInput Current 115V AC ----0.3A 277V AC ----0.15Inrush Current115V AC --15--277V AC--30--Recommended External Input Fuse 1A,slow-blow,requiredHot PlugUnavailableOutput SpecificationsItemOperating Conditions Min.Typ.Max.UnitOutput Voltage Accuracy 0%-100%load 3.3V output --±1.5±3%Other output--±1±2Line Regulation Rated load --±0.5±1Load Regulation 0%-100%load--±1±1.5Ripple &Noise *20MHz bandwidth (peak-to-peak value)--80150mV Temperature Coefficient --±0.02--%/°C Short Circuit Protection Hiccup,continuous,self-recoveryOver-current Protection ≥110%Io,self-recoveryMinimum Load----%Note:*The “parallel cable”method is used for ripple and noise test,please refer to AC-DC Converter Application Notes for specific information.Selection GuideCertificationPart No.Output PowerNominal Output Voltage and Current (Vo/Io)Efficiency at 230V AC(%)Typ.Capacitive Load(µF)Max.CE/UL/CB (Pending)LS08-13B03SS 5.28W3.3V/1600mA 701500LS08-13B05SS8W 5V/1600mA 741500LS08-13B09SS 9V/880mA 751000LS08-13B12SS 12V/670mA 76680LS08-13B15SS 15V/530mV 77470LS08-13B24SS24V/330mA79330General SpecificationsItem Operating Conditions Min.Typ.Max.UnitIsolation Test Input-output Electric Strength Test for1min.,(leakage current＜5mA)3000----VACOperating Temperature-40--+85℃Storage Temperature-40--+105Storage Humidity----95%RHPower Derating -40℃~-25℃ 2.67----%/℃+55℃~+85℃ 2.5----85V AC-100VAC1----277V AC-305V AC0.54----Safety Standard IEC/EN/UL62368,IEC/EN/UL60335 Safety Certification IEC/EN/UL62368(Pending) Safety CLASS CLASS IIMTBF MIL-HDBK-217F@25°C>300,000h Mechanical SpecificationsCase Material44.50x24.00x15.00mmWeight11g(Typ.)Cooling method Free air convectionElectromagnetic Compatibility(EMC)Emissions CECISPR32/EN55032CLASS A(Recommended circuit1,4)CISPR32/EN55032CLASS B(Recommended circuit2,3) RECISPR32/EN55032CLASS A(Recommended circuit1,4)CISPR32/EN55032CLASS B(Recommended circuit2,3)Immunity ESD IEC/EN61000-4-2Contact±6KV Perf.Criteria B RS IEC/EN61000-4-310V/m perf.Criteria AEFTIEC/EN61000-4-4±2KV(Recommended circuit1,2)perf.Criteria BIEC/EN61000-4-4±4KV(Recommended circuit3,4)perf.Criteria B SurgeIEC/EN61000-4-5line to line±1KV(Recommended circuit1,2)perf.Criteria BIEC/EN61000-4-5line to line±2KV(Recommended circuit3,4)IEC/EN61000-4-5line to line±4KV(Recommended circuit4)perf.Criteria B CS IEC/EN61000-4-610Vr.m.s perf.Criteria A Voltage dips,shortinterruptions and voltagevariations immunityIEC/EN61000-4-110%,70%perf.Criteria BProduct Characteristic CurveNote:①With an AC input between85-100VAC/277-305VAC and a DC input between100-120VDC/390-430VDC,the output power must be derated as per temperature derating curves;②This product is suitable for applications using natural air cooling;for applications in closed environment please consult factory or one of our FAE.Additional Circuits Design ReferenceLS series additional circuits design referenceLS08series additional components selection guidePart No.FUSE(required)C1required)C2(required)L1(required)C3（required ）C4CY1（required ）LS08-13B03SS 1A/300V22µF/450V470µF/16V(solid-state capacitor) 4.7µH 150µF/35V 0.1µF/50V1.0nF/400V ACLS08-13B05SS LS08-13B09SS 220µF/16V(solid-state capacitor)100µF/35V LS08-13B12SS LS08-13B15SS 470uF/35V 47µF/35VLS08-13B24SS220uF/35VNote:1.C1:input capacitors,C2:output storage capacitors,they must be connected externally.2.We recommend using an electrolytic capacitor with high frequency and low ESR rating for C3(refer to manufacture’s datasheet).Combined with C2,L1,they form a pi-type filter circuit.Choose a capacitor voltage rating with at least 20%margin,in other words not exceeding 80%.C4is a ceramic capacitor,used for filtering high frequency noise.A suppressor diode (TVS)is a recommended to protect the application in case of a converter failure and specification should be 1.2times of the output voltage.Immunity design circuits for referenceEmissions design circuits for referenceCLASS ⅢCLASS ⅣCLASS ACLASS BEnvironmental Application EMC SolutionLS series environmental application EMC solution selection tableRecommendedcircuit Application environmental Typical industryInput voltagerangeEnvironment temperature Emissions Immunity 1Basic applicationNone85～305V AC -40℃~+85℃CLASS A CLASS Ⅲ2Indoor civil environment Smart home/Home appliances(2Y)-25℃~+55℃CLASS BCLASS ⅢIndoor general environment Intelligent building/Intelligentagriculture 3Indoor industrial environment Manufacturing workshop -25℃~+55℃CLASS B CLASS Ⅳ4Outdoor general environmentITS/Video monitoring/Charging point/Communication/Securityand protection-40℃~+85℃CLASS ACLASS ⅣOutdoor harsh environmentOn-line power meter Communication base station-40℃~+85℃CLASS A>CLASS ⅣSurge:line to ground ±4KV EFT:CLASS ⅣElectromagnetic Compatibility Solution--Recommended Circuit1.Recommended circuit 1——Basic applicationrecommended circuit 1Application environmentalAmbient temperature rangeImmunity CLASSEmissions CLASSBasic application-40℃~+85℃CLASS ⅢCLASS AComponentRecommended valueR112Ω/3W LDM4.7mH2.Recommended circuit 2——Indoor civil /Universal system recommended circuits for general environmentRecommended circuit 2Application environmentalAmbient temperature rangeImmunity CLASSEmissions CLASS Indoor civil /general -25℃~+55℃CLASS ⅢCLASS BComponentRecommended valueR112Ω/3W CY1(CY2) 1.0nF/400V ACLCM 3.5mH LDM 0.33mH CX0.1µF/310VAC FUSE (required)1A/300V ,slow-blowNote:In the home appliance application environment,the two Y capacitors of the primary and secondary need to be externally connected (CY1/CY2,value at 2.2nF/400VAC),which can meet the EN60335certification.In other industries,only one Y capacitor is needed.3.Recommended circuit 3——Universal system recommended circuits for indoor industrial environmentRecommended circuit 3Application environmental Ambienttemperature rangeImmunity CLASSEmissions CLASSIndoor industrial-25℃~+55℃CLASS ⅣCLASS BComponentRecommended valueMOV S14K350C1450V/22uF CY1 2.2nF/400V AC CX 0.1µF/310V ACLCM 3.5mH LDM 0.33mH R112Ω/3WFUSE (required)2A/300V ,slow-blow4.Recommended circuit 4——Universal system recommended circuits for outdoor general/harsh environmentRecommended circuit 4Application environmental Ambienttemperature rangeImmunity CLASSEmissions CLASSOutdoor general environment-40℃~+85℃CLASS ⅣCLASS AComponentRecommended valueMOV S14K350C1450V/22uF LDM 4.7mH R112Ω/3WFUSE (required)2A/300V ,slow-blowApplication environmental Ambient temperaturerangeImmunity CLASS EmissionsCLASSOutdoor harsh environment -40℃~+85℃>CLASSⅣSurge:line to ground±4KVEFT:CLASSⅣCLASS AComponent Recommended valueMOV S20K350C1450V/33uF(Surge protection priority)LDM 4.7mHR133Ω/5WFUSE(required) 6.3A/300V,slow-blow5.For additional information please refer to application notes on . LS08-13BxxSS Dimensions and Recommended LayoutNote:1.For additional information on Product Packaging please refer to .Packaging bag number:58220032;2.External electrolytic capacitors are required to modules,more details refer to typical applications;3.This part is open frame,at least6.4mm safety distance between the primary and secondary external components of the module isneeded to meet the safety requirement;4.Unless otherwise specified,parameters in this datasheet were measured under the conditions of Ta=25℃,humidity<75%,nominal inputvoltage(115V and230V)and rated output load;5.In order to improve the efficiency at light load,there will be audible noise generated,but it does not affect product performance andreliability;6.Module required dispensing fixed after assembled;7.All index testing methods in this datasheet are based on our company corporate standards;8.We can provide product customization service,please contact our technicians directly for specific information;9.Products are related to laws and regulations:see"Features"and"EMC";10.Our products shall be classified according to ISO14001and related environmental laws and regulations,and shall be handled byqualified units.Mornsun Guangzhou Science&Technology Co.,Ltd.Address:No.5,Kehui St.1,Kehui Development Center,Science Ave.,Guangzhou Science City,Huangpu District,Guangzhou,P.R.China Tel:86-20-38601850Fax:86-20-38601272E-mail:***************。

REV.EInformation furnished by Analog Devices is believed to be accurate and reliable. However, no responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other rights of third parties that may result from its use. No license is granted by implication or otherwise under any patent or patent rights of Analog Devices. Trademarks and registered trademarks are the property of their respective companies.One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A.Tel: 781/329-4700 Fax: 781/326-8703© 2003 Analog Devices, Inc. All rights reserved.REF19x SeriesPrecision Micropower, Low DropoutVoltage References PIN CONFIGURATIONS8-Lead Narrow-Body SOIC and TSSOP(S Suffix and RU Suffix)TP V S SLEEP GNDNCNC OUTPUT TPNC = NO CONNECTTP PINS ARE FACTORY TEST POINTS,NO USER CONNECTION8-Lead Epoxy DIP (P Suffix)TP V SSLEEP GNDNC = NO CONNECTTP PINS ARE FACTORY TEST POINTS,NO USER CONNECTIONNCNC OUTPUT TPFEATURESInitial Accuracy: ؎2 mV MaxTemperature Coefficient: 5 ppm/؇C Max Low Supply Current: 45 ␮A Max Sleep Mode: 15 ␮A Max Low Dropout VoltageLoad Regulation: 4 ppm/mA Line Regulation: 4 ppm/V High Output Current: 30 mA Short Circuit ProtectionAPPLICATIONSPortable InstrumentationA-to-D and D-to-A Converters Smart SensorsSolar Powered ApplicationsLoop Current Powered Instrumentations GENERAL DESCRIPTIONREF19x series precision band gap voltage references use a pat-ented temperature drift curvature correction circuit and laser trimming of highly stable thin film resistors to achieve a very low temperature coefficient and a high initial accuracy.The REF19x series is made up of micropower, Low Dropout Voltage (LDV) devices providing a stable output voltage from supplies as low as 100 mV above the output voltage and consum-ing less than 45 µA of supply current. In sleep mode, which is enabled by applying a low TTL or CMOS level to the sleep pin,the output is turned off and supply current is further reduced to less than 15µA.The REF19x series references are specified over the extended industrial temperature range (–40°C to +85°C) with typicalperformance specifications over –40°C to +125°C for applications such as automotive.All electrical grades are available in 8-lead SOIC; the PDIP and TSSOP are only available in the lowest electrical grade. Products are also available in die form.Test Pins (TP)The test pins, Pin 1 and Pin 5, are reserved for in-packageZener-zap. To achieve the highest level of accuracy at the output,the Zener-zapping technique is used to trim the output voltage.Since each unit may require a different amount of adjustment, the resistance value at the test pins will vary widely from pin to pin as well as from part to part. The user should not make any physical nor electrical connections to Pin 1 and Pin 5.Table I.Part Nominal Output Number Voltage (V)REF191 2.048REF192 2.50REF193 3.00REF194 4.50REF195 5.00REF196 3.30REF1984.096ORDERING GUIDETemperature Package Package Model Range Description Option 1REF19xGP –40°C to +85°C 8-Lead Plastic DIP 2N-8REF19xES 3–40°C to +85°C 8-Lead SOIC SOIC-8REF19xFS 3–40°C to +85°C 8-Lead SOIC SOIC-8REF19xGS –40°C to +85°C 8-Lead SOIC SOIC-8REF19xGRU 4–40°C to +85°C 8-Lead TSSOP RU-8REF19xGBC25°CDICENOTES 1N = Plastic DIP, SOIC = Small Outline, RU = Thin Shrink Small Outline.28-lead plastic DIP is only available in “G ” grade.3REF193 and REF196 are only available in “G ” grade.4Available for REF192, REF195, and REF198 only.REV. E–2–REF191–SPECIFICATIONSREF19x SeriesELECTRICAL CHARACTERISTICS ParameterSymbol Condition Min Typ Max Unit INITIAL ACCURACY 1E Grade V OI OUT = 0 mA2.046 2.0482.050V F Grade 2.043 2.053V G Grade2.0382.058V LINE REGULATION 2E Grade⌬V O /⌬V IN 3.0 V ≤ V S ≤ 15 V, I OUT = 0 mA24ppm/V F and G Grades 48ppm/V LOAD REGULATION 2E Grade⌬V O /⌬V LOAD V S = 5.0 V, 0 mA ≤ I OUT ≤ 30 mA 410ppm/mA F and G Grades 615ppm/mA DROPOUT VOLTAGEV S – V OV S = 3.15 V, I LOAD = 2 mA 0.95V V S = 3.3 V, I LOAD = 10 mA 1.25V V S = 3.6 V, I LOAD = 30 mA 1.55V LONG-TERM STABILITY 3DV O 1000 Hours @ 125°C 1.2mV NOISE VOLTAGEe N0.1 Hz to 10 Hz20µV p-pNOTES 1Initial accuracy includes temperature hysteresis effect.2Line and load regulation specifications include the effect of self-heating.3Long-term drift is guaranteed by 1000 hours life test performed on three independent wafer lots at 125°C, with an LTPD of 1.3.Specifications subject to change without notice.ELECTRICAL CHARACTERISTICS Parameter Symbol Condition Min Typ Max Unit TEMPERATURE COEFFICIENT 1, 2E ” Grade TCV O /°C I OUT = 0 mA25ppm/°C F Grade 510ppm/°C G Grade 31025ppm/°C LINE REGULATION 4E Grade⌬V O /⌬V IN3.0 V ≤ V S ≤ 15 V, I OUT = 0 mA510ppm/V F and G Grades 1020ppm/V LOAD REGULATION 4E Grade⌬V O /⌬V LOAD V S = 5.0 V, 0 mA ≤ I OUT ≤ 25 C 515ppm/mA F and G Grades 1020ppm/mA DROPOUT VOLTAGEV S – V OV S = 3.15 V, I LOAD = 2 mA 0.95V V S = 3.3 V, I LOAD = 10 mA 1.25V V S = 3.6 V, I LOAD = 25 mA1.55V SLEEP PINLogic High Input Voltage V H 2.4V Logic High Input Current I H –8µA Logic Low Input Voltage V L 0.8V Logic Low Input Current I L–8µA SUPPLY CURRENT No Load 45µA Sleep ModeNo Load15µANOTES 1For proper operation, a 1 µF capacitor is required between the output pin and the GND pin of the device.2TCV O is defined as the ratio of output change with temperature variation to the specified temperature range expressed in ppm/°C.TCV O =(V MAX –V MIN )/V O (T MAX –T MIN ).3Guaranteed by characterization.4Line and load regulation specifications include the effect of self-heating.Specifications subject to change without notice.(@ V S= 3.3 V, T A= 25؇C, unless otherwise noted.)(@ V S= 3.3 V, –40؇C ≤ T A≤ +85؇C, unless otherwise noted.)REV. E REF19x Series–3–REF191–SPECIFICATIONSELECTRICAL CHARACTERISTICS Parameter Symbol Condition Min Typ Max Unit TEMPERATURE COEFFICIENT 1, 2E Grade TCV O /°C I OUT = 0 mA2ppm/°C F Grade 5ppm/°C G Grade 310ppm/°C LINE REGULATION 4E Grade⌬V O /⌬V IN3.0 V ≤ V S ≤ 15 V, I OUT = 0 mA10ppm/V F and G Grades 20ppm/V LOAD REGULATION 4E Grade⌬V O /⌬V LOAD V S = 5.0 V, 0 mA ≤ I OUT ≤ 20 mA 10ppm/mA F and G Grades 20ppm/mADROPOUT VOLTAGEV S – V OV S = 3.3 V, I LOAD = 10 mA 1.25V V S = 3.6 V, I LOAD = 20 mA1.55VNOTES 1For proper operation, a 1 µF capacitor is required between the output pin and the GND pin of the device.2TCV O is defined as the ratio of output change with temperature variation to the specified temperature range expressed in ppm/°C.TCV O =(V MAX –V MIN )/V O (T MAX –T MIN ).3Guaranteed by characterization.4Line and load regulation specifications include the effect of self-heating.Specifications subject to change without notice.(@ V S= 3.3 V, –40؇C ≤ T A≤ +125؇C, unless otherwise noted.)REV. E–4–REF19x SeriesREF192–SPECIFICATIONSELECTRICAL CHARACTERISTICS ParameterSymbol Condition Min Typ Max Unit INITIAL ACCURACY 1E Grade V OI OUT = 0 mA2.498 2.5002.502V F Grade 2.495 2.505V G Grade2.4902.510V LINE REGULATION 2E Grade⌬V O /⌬V IN 3.0 V ≤ V S ≤ 15 V, I OUT = 0 mA24ppm/V F and G Grades 48ppm/V LOAD REGULATION 2E Grade⌬V O /⌬V LOAD V S = 5.0 V, 0 mA ≤ I OUT ≤ 30 mA 410ppm/mA F and G Grades 615ppm/mA DROPOUT VOLTAGE V S – V O V S = 3.5 V, I LOAD = 10 mA 1.00V V S = 3.9 V, I LOAD = 30 mA 1.40V LONG-TERM STABILITY 3DV O 1000 Hours @ 125°C 1.2mV NOISE VOLTAGEe N0.1 Hz to 10 Hz25µV p-pNOTES 1Initial accuracy includes temperature hysteresis effect.2Line and load regulation specifications include the effect of self-heating.3Long-term drift is guaranteed by 1000 hours life test performed on three independent wafer lots at 125°C, with an LTPD of 1.3.Specifications subject to change without notice.ELECTRICAL CHARACTERISTICS Parameter Symbol Condition Min Typ Max Unit TEMPERATURE COEFFICIENT 1, 2E Grade TCV O /°C I OUT = 0 mA25ppm/°C F Grade 510ppm/°C G Grade 31025ppm/°C LINE REGULATION 4E Grade⌬V O /⌬V IN3.0 V ≤ V S ≤ 15 V, I OUT = 0 mA510ppm/V F and G Grades 1020ppm/V LOAD REGULATION 4E Grade⌬V O /⌬V LOAD V S = 5.0 V, 0 mA ≤ I OUT ≤ 25 mA 515ppm/mA F and G Grades 1020ppm/mA DROPOUT VOLTAGE V S – V OV S = 3.5 V, I LOAD = 10 mA 1.00V V S = 4.0 V, I LOAD = 25 mA1.50V SLEEP PINLogic High Input Voltage V H 2.4V Logic High Input Current I H –8µA Logic Low Input Voltage V L 0.8V Logic Low Input Current I L–8µA SUPPLY CURRENT No Load 45µA Sleep ModeNo Load15µANOTES 1For proper operation, a 1 µF capacitor is required between the output pin and the GND pin of the device.2TCV O is defined as the ratio of output change with temperature variation to the specified temperature range expressed in ppm/°C.TCV O =(V MAX –V MIN )/V O (T MAX –T MIN ).3Guaranteed by characterization.4Line and load regulation specifications include the effect of self-heating.Specifications subject to change without notice.(@ V S= 3.3 V, T A= 25؇C, unless otherwise noted.)(@ V S= 3.3 V, T A= –40؇C ≤ T A≤ +85؇C, unless otherwise noted.)REV. E REF19x Series–5–REF192–SPECIFICATIONSELECTRICAL CHARACTERISTICS Parameter Symbol Condition Min Typ Max Unit TEMPERATURE COEFFICIENT 1, 2E Grade TCV O /°C I OUT = 0 mA2ppm/°C F Grade 5ppm/°C G Grade 310ppm/°C LINE REGULATION 4E Grade⌬V O /⌬V IN3.0 V ≤ V S ≤ 15 V, I OUT = 0 mA10ppm/V F and G Grades 20ppm/V LOAD REGULATION 4E Grade⌬V O /⌬V LOAD V S = 5.0 V, 0 mA ≤ I OUT ≤ 20 mA 10ppm/mA F and G Grades 20ppm/mADROPOUT VOLTAGEV S – V OV S = 3.5 V, I LOAD = 10 mA 1.00V V S = 4.0 V, I LOAD = 20 mA1.50VNOTES 1For proper operation, a 1 µF capacitor is required between the output pin and the GND pin of the device.2TCV O is defined as the ratio of output change with temperature variation to the specified temperature range expressed in ppm/°C.TCV O =(V MAX –V MIN )/V O (T MAX –T MIN ).3Guaranteed by characterization.4Line and load regulation specifications include the effect of self-heating.Specifications subject to change without notice.(@ V S= 3.3 V, –40؇C ≤ T A≤ +125؇C, unless otherwise noted.)REF193–SPECIFICATIONSELECTRICAL CHARACTERISTICSParameterSymbolCondition Min Typ Max Unit INITIAL ACCURACY 1G GradeV OI OUT = 0 mA2.9903.0 3.010V LINE REGULATION 2G Grades⌬V O /⌬V IN 3.3 V, ≤ V S ≤ 15 V, I OUT = 0 mA 48ppm/V LOAD REGULATION 2G Grade⌬V O /⌬V LOAD V S = 5.0 V, 0 mA ≤ I OUT ≤ 30 mA 615ppm/mA DROPOUT VOLTAGE V S – V O V S = 3.8 V, I LOAD = 10 mA 0.80V V S = 4.0 V, I LOAD = 30 mA 1.00V LONG-TERM STABILITY 3DV O 1000 Hours @ 125°C 1.2mV NOISE VOLTAGEe N0.1 Hz to 10 Hz30µV p-pNOTES 1Initial accuracy includes temperature hysteresis effect.2Line and load regulation specifications include the effect of self-heating.3Long-term drift is guaranteed by 1000 hours life test performed on three independent wafer lots at 125°C, with an LTPD of 1.3.Specifications subject to change without notice.(@ V S = 3.3 V, T A = 25؇C, unless otherwise noted.)REV. E–6–REF19x SeriesREF193–SPECIFICATIONSELECTRICAL CHARACTERISTICSParameterSymbolCondition MinTyp Max Unit TEMPERATURE COEFFICIENT 1, 2G Grade 3TCV O /°C I OUT = 0 mA1025ppm/°C LINE REGULATION 4G Grade⌬V O /⌬V IN 3.3 V ≤ V S ≤ 15 V, I OUT = 0 mA 1020ppm/V LOAD REGULATION 4G Grade⌬V O /⌬V LOAD V S = 5.0 V, 0 mA ≤ I OUT ≤ 25 mA 1020ppm/mA DROPOUT VOLTAGE V S – V OV S = 3.8 V, I LOAD = 10 mA 0.80V V S = 4.1 V, I LOAD = 30 mA1.10V SLEEP PINLogic High Input Voltage V H 2.4V Logic High Input Current I H –8µA Logic Low Input Voltage V L 0.8V Logic Low Input Current I L–8µA SUPPLY CURRENT No Load 45µA Sleep ModeNo Load15µANOTES 1For proper operation, a 1 µF capacitor is required between the output pin and the GND pin of the device.2TCV O is defined as the ratio of output change with temperature variation to the specified temperature range expressed in ppm/°C.TCV O =(V MAX –V MIN )/V O (T MAX –T MIN ).3Guaranteed by characterization.4Line and load regulation specifications include the effect of self-heating.Specifications subject to change without notice.ELECTRICAL CHARACTERISTICS Parameter Symbol Condition Min Typ Max Unit TEMPERATURE COEFFICIENT 1, 2G Grade 3TCV O /°C I OUT = 0 mA10ppm/°C LINE REGULATION 4G Grade⌬V O /⌬V IN 3.3 V ≤ V S ≤ 15 V, I OUT = 0 mA 20ppm/V LOAD REGULATION 4G Grade⌬V O /⌬V LOAD V S = 5.0 V, 0 mA ≤ I OUT ≤ 20 mA 10ppm/mADROPOUT VOLTAGEV S – V OV S = 3.8 V, I LOAD = 10 mA 0.80V V S = 4.1 V, I LOAD = 20 mA1.10VNOTES 1For proper operation, a 1 µF capacitor is required between the output pin and the GND pin of the device.2TCV O is defined as the ratio of output change with temperature variation to the specified temperature range expressed in ppm/°C.TCV O =(V MAX –V MIN )/V O (T MAX –T MIN ).3Guaranteed by characterization.4Line and load regulation specifications include the effect of self-heating.Specifications subject to change without notice.(@ V S= 3.3 V, –40؇C ≤ T A≤ +125؇C, unless otherwise noted.)(@ V S = 3.3 V, T A = –40؇C ≤ T A ≤ +85؇C, unless otherwise noted.)REV. E REF19x Series–7–(@ V S = 5.0 V, T A = –40؇C ≤ T A ≤ +85؇C, unless otherwise noted.)(@ V S= 5.0 V, T A= 25؇C, unless otherwise noted.)REF194–SPECIFICATIONSELECTRICAL CHARACTERISTICS ParameterSymbol Condition Min Typ Max Unit INITIAL ACCURACY 1E Grade V OI OUT = 0 mA4.498 4.54.502V F Grade 4.495 4.505V G Grade4.4904.510V LINE REGULATION 2E Grade⌬V O /⌬V IN 4.75 V ≤ V S ≤ 15 V, I OUT = 0 mA24ppm/V F and G Grades 48ppm/V LOAD REGULATION 2E Grade⌬V O /⌬V LOAD V S = 5.8 V, 0 mA ≤ I OUT ≤ 30 mA 24ppm/mA F and G Grades 48ppm/mA DROPOUT VOLTAGE V S – V O V S = 5.00 V, I LOAD = 10 mA 0.50V V S = 5.8 V, I LOAD = 30 mA 1.30V LONG-TERM STABILITY 3DV O 1000 Hours @ 125°C 2mV NOISE VOLTAGEe N0.1 Hz to 10 Hz45µV p-pNOTES 1Initial accuracy includes temperature hysteresis effect.2Line and load regulation specifications include the effect of self-heating.3Long-term drift is guaranteed by 1000 hours life test performed on three independent wafer lots at 125°C, with an LTPD of 1.3.Specifications subject to change without notice.ELECTRICAL CHARACTERISTICSParameterSymbolCondition MinTyp Max Unit TEMPERATURE COEFFICIENT 1, 2E Grade TCV O /°C I OUT = 0 mA25ppm/°C F Grade 510ppm/°C G Grade 31025ppm/°C LINE REGULATION 4E Grade⌬V O /⌬V IN4.75 V ≤ V S ≤ 15 V, I OUT = 0 mA510ppm/V F and G Grades 1020ppm/V LOAD REGULATION 4E Grade⌬V O /⌬V LOAD V S = 5.80 V, 0 mA ≤ I OUT ≤ 25 mA 515ppm/mA F and G Grades 1020ppm/mA DROPOUT VOLTAGE V S – V OV S = 5.00 V, I LOAD = 10 mA 0.5V V S = 5.80 V, I LOAD = 25 mA1.30V SLEEP PINLogic High Input Voltage V H 2.4V Logic High Input Current I H –8µA Logic Low Input Voltage V L 0.8V Logic Low Input Current I L–8µA SUPPLY CURRENT No Load 45µA Sleep ModeNo Load15µANOTES 1For proper operation, a 1 µF capacitor is required between the output pin and the GND pin of the device.2TCV O is defined as the ratio of output change with temperature variation to the specified temperature range expressed in ppm/°C.TCV O =(V MAX –V MIN )/V O (T MAX –T MIN ).3Guaranteed by characterization.4Line and load regulation specifications include the effect of self-heating.Specifications subject to change without notice.REF19x SeriesREF194–SPECIFICATIONSELECTRICAL CHARACTERISTICS(@ V S = 5.0 V, –40؇C ≤ T A≤ +125؇C, unless otherwise noted.)Parameter Symbol Condition Min Typ Max Unit TEMPERATURE COEFFICIENT1, 2E Grade TCV O/°C I OUT = 0 mA2ppm/°CF Grade5ppm/°CG Grade310ppm/°C LINE REGULATION4E Grade⌬V O/⌬V IN 4.75 V ≤ V S≤ 15 V, I OUT = 0mA5ppm/VF andG Grades10ppm/V LOAD REGULATION4E Grade⌬V O/⌬V LOAD V S = 5.80 V, mA 0 ≤ I OUT≤ 20mA5ppm/mAF andG Grades10ppm/mA DROPOUT VOLTAGE V S– V O V S = 5.10 V, I LOAD = 10mA0.60VV S = 5.95 V, I LOAD = 20mA 1.45VNOTES1For proper operation, a 1 µF capacitor is required between the output pin and the GND pin of the device.2TCVis defined as the ratio of output change with temperature variation to the specified temperature range expressed in ppm/°C.OTCV O=(V MAX–V MIN)/V O(T MAX–T MIN).3Guaranteed by characterization.4Line and load regulation specifications include the effect of self-heating.Specifications subject to change without notice.REV. E–8–REV. E REF19x Series–9–REF195–SPECIFICATIONSELECTRICAL CHARACTERISTICS ParameterSymbol Condition Min Typ Max Unit INITIAL ACCURACY 1E Grade V OI OUT = 0 mA4.9985.05.002V F Grade 4.995 5.005V G Grade4.9905.010V LINE REGULATION 2E Grade⌬V O /⌬V IN 5.10 V ≤ V S ≤ 15 V, I OUT = 0 mA24ppm/V F and G Grades 48ppm/V LOAD REGULATION 2E Grade⌬V O /⌬V LOAD V S = 6.30 V, 0 mA ≤ I OUT ≤ 30 mA 24ppm/mA F and G Grades 48ppm/mA DROPOUT VOLTAGE V S – V O V S = 5.50 V, I LOAD = 10 mA 0.50V V S = 6.30 V, I LOAD = 30 mA 1.30V LONG-TERM STABILITY 3DV O 1000 Hours @ 125°C 1.2mV NOISE VOLTAGEe N0.1 Hz to 10 Hz50µV p-pNOTES 1Initial accuracy includes temperature hysteresis effect.2Line and load regulation specifications include the effect of self-heating.3Long-term drift is guaranteed by 1000 hours life test performed on three independent wafer lots at 125°C, with an LTPD of 1.3.Specifications subject to change without notice.ELECTRICAL CHARACTERISTICSParameterSymbolCondition MinTyp Max Unit TEMPERATURE COEFFICIENT 1, 2E Grade TCV O /°C I OUT = 0 mA25ppm/°C F Grade 510ppm/°C G Grade 31025ppm/°C LINE REGULATION 4E Grade⌬V O /⌬V IN5.15 V ≤ V S ≤ 15 V, I OUT = 0 mA510ppm/V F and G Grades 1020ppm/V LOAD REGULATION 4E Grade⌬V O /⌬V LOAD V S = 6.30 V, 0 mA ≤ I OUT ≤ 25 mA 510ppm/mA F and G Grades 1020ppm/mA DROPOUT VOLTAGE V S – V OV S = 5.50 V, I LOAD = 10 mA 0.50V V S = 6.30 V, I LOAD = 25 mA1.30V SLEEP PINLogic High Input Voltage V H 2.4V Logic High Input Current I H –8µA Logic Low Input Voltage V L 0.8V Logic Low Input Current I L–8µA SUPPLY CURRENT No Load 45µA Sleep ModeNo Load15µANOTES 1For proper operation, a 1 µF capacitor is required between the output pin and the GND pin of the device.2TCV O is defined as the ratio of output change with temperature variation to the specified temperature range expressed in ppm/°C.TCV O =(V MAX –V MIN )/V O (T MAX –T MIN ).3Guaranteed by characterization.4Line and load regulation specifications include the effect of self-heating.Specifications subject to change without notice.(@ V S = 5.15 V, T A = –40؇C ≤ T A ≤ +85؇C, unless otherwise noted.)(@ V S= 5.10 V, T A= 25؇C, unless otherwise noted.)REV. E–10–REF19x SeriesREF195–SPECIFICATIONSELECTRICAL CHARACTERISTICS Parameter Symbol Condition Min Typ Max Unit TEMPERATURE COEFFICIENT 1, 2E Grade TCV O /°C I OUT = 0 mA2ppm/°C F Grade 5ppm/°C G Grade 310ppm/°C LINE REGULATION 4E Grade⌬V O /⌬V IN5.20V ≤ V S ≤ 15V, I OUT = 0 mA5ppm/V F and G Grades 10ppm/V LOAD REGULATION 4E Grade⌬V O /⌬V LOAD V S = 6.45V, 0 mA ≤ I OUT ≤ 20 mA 5ppm/mA F and G Grades 10ppm/mADROPOUT VOLTAGEV S – V OV S = 5.60V, I LOAD = 10mA 0.60V V S = 6.45V, I LOAD = 20mA1.45VNOTES 1For proper operation, a 1 µF capacitor is required between the output pin and the GND pin of the device.2TCV O is defined as the ratio of output change with temperature variation to the specified temperature range expressed in ppm/°C.TCV O =(V MAX –V MIN )/V O (T MAX –T MIN ).3Guaranteed by characterization.4Line and load regulation specifications include the effect of self-heating.Specifications subject to change without notice.REF196–SPECIFICATIONSELECTRICAL CHARACTERISTICS ParameterSymbol Condition Min Typ Max Unit INITIAL ACCURACY 1G GradeV OI OUT = 0 mA3.2903.3 3.310V LINE REGULATION 2G Grades⌬V O /⌬V IN 3.50 V ≤ V S ≤ 15 V, I OUT = 0 mA 48ppm/V LOAD REGULATION 2G Grade⌬V O /⌬V LOAD V S = 5.0 V, 0 mA ≤ I OUT ≤ 30 mA 615ppm/mA DROPOUT VOLTAGE V S – V O V S = 4.1 V, I LOAD = 10 mA 0.80V V S = 4.3 V, I LOAD = 30 mA 1.00V LONG-TERM STABILITY 3DV O 1000 Hours @ 125°C 1.2mV NOISE VOLTAGEe N0.1 Hz to 10 Hz33µV p-pNOTES 1Initial accuracy includes temperature hysteresis effect.2Line and load regulation specifications include the effect of self-heating.3Long-term drift is guaranteed by 1000 hours life test performed on three independent wafer lots at 125°C, with an LTPD of 1.3.Specifications subject to change without notice.(@ V S= 5.20 V, –40؇C ≤ T A≤ +125؇C, unless otherwise noted.)(@ V S= 3.5 V, T A= 25؇C, unless otherwise noted.)REV. E REF19x Series–11–REF196–SPECIFICATIONSELECTRICAL CHARACTERISTICSParameterSymbolCondition MinTyp Max Unit TEMPERATURE COEFFICIENT 1, 2G Grade 3TCV O /°C I OUT = 0 mA1025ppm/°C LINE REGULATION 4G Grade⌬V O /⌬V IN 3.5 V ≤ V S ≤ 15 V, I OUT = 0 mA 1020ppm/V LOAD REGULATION 4G Grade⌬V O /⌬V LOAD V S = 5.0 V, 0 mA ≤ I OUT ≤ 25 mA 1020ppm/mA DROPOUT VOLTAGE V S – V OV S = 4.1 V, I LOAD = 10 mA 0.80V V S = 4.3 V, I LOAD = 25 mA1.00V SLEEP PINLogic High Input Voltage V H 2.4V Logic High Input Current I H –8µA Logic Low Input Voltage V L 0.8V Logic Low Input Current I L–8µA SUPPLY CURRENT No Load 45µA Sleep ModeNo Load15µANOTES 1For proper operation, a 1 µF capacitor is required between the output pin and the GND pin of the device.2TCV O is defined as the ratio of output change with temperature variation to the specified temperature range expressed in ppm/°C.TCV O =(V MAX –V MIN )/V O (T MAX –T MIN ).3Guaranteed by characterization.4Line and load regulation specifications include the effect of self-heating.Specifications subject to change without notice.ELECTRICAL CHARACTERISTICSParameterSymbolCondition MinTyp MaxUnit TEMPERATURE COEFFICIENT 1, 2G Grade 3TCV O /°C I OUT = 0 mA10ppm/°C LINE REGULATION 4G Grade⌬V O /⌬V IN 3.50 V ≤ V S ≤ 15 V, I OUT = 0 mA 20ppm/V LOAD REGULATION 4G Grade⌬V O /⌬V LOAD V S = 5.0 V, 0 mA ≤ I OUT ≤ 20 mA 20ppm/mA DROPOUT VOLTAGEV S – V OV S = 4.1 V, I LOAD = 10 mA 0.80V V S = 4.4 V, I LOAD = 20 mA1.10VNOTES 1For proper operation, a 1 µF capacitor is required between the output pin and the GND pin of the device.2TCV O is defined as the ratio of output change with temperature variation to the specified temperature range expressed in ppm/°C.TCV O =(V MAX –V MIN )/V O (T MAX –T MIN ).3Guaranteed by characterization.4Line and load regulation specifications include the effect of self-heating.Specifications subject to change without notice.(@ V S = 3.50 V, –40؇C ≤ T A ≤ +125؇C, unless otherwise noted.)(@ V S = 3.5 V, T A = –40؇C ≤ T A ≤ +85؇C, unless otherwise noted.)REV. E–12–REF19x SeriesREF198–SPECIFICATIONSELECTRICAL CHARACTERISTICSParameterSymbol Condition Min Typ Max Unit INITIAL ACCURACY 1E Grade V OI OUT = 0 mA4.094 4.0964.098V F Grade 4.091 4.101V G Grade4.0864.106V LINE REGULATION 2E Grade⌬V O /⌬V IN 4.5 V ≤ V S ≤ 15 V, I OUT = 0 mA24ppm/V F and G Grades 48ppm/V LOAD REGULATION 2E Grade⌬V O /⌬V LOAD V S = 5.4 V, 0 mA ≤ I OUT ≤ 30 mA 24ppm/mA F and G Grades 48ppm/mA DROPOUT VOLTAGE V S – V O V S = 4.6 V, I LOAD = 10 mA 0.50V V S = 5.4 V, I LOAD = 30 mA 1.30V LONG-TERM STABILITY 3DV O 1000 Hours @ 125°C 1.2mV NOISE VOLTAGEe N0.1 Hz to 10 Hz40µV p-pNOTES 1Initial accuracy includes temperature hysteresis effect.2Line and load regulation specifications include the effect of self-heating.3Long-term drift is guaranteed by 1000 hours life test performed on three independent wafer lots at 125°C, with an LTPD of 1.3.Specifications subject to change without notice.ELECTRICAL CHARACTERISTICS Parameter Symbol Condition Min Typ Max Unit TEMPERATURE COEFFICIENT 1, 2E Grade TCV O /°C I OUT = 0 mA25ppm/°C F Grade 510ppm/°C G Grade 31025ppm/°C LINE REGULATION 4E Grade⌬V O /⌬V IN4.5 V ≤ V S ≤ 15 V, I OUT = 0 mA510ppm/V F and G Grades 1020ppm/V LOAD REGULATION 4E Grade⌬V O /⌬V LOAD V S = 5.4 V, 0 mA ≤ I OUT ≤ 25 mA 510ppm/mA F and G Grades 1020ppm/mA DROPOUT VOLTAGE V S – V OV S = 4.6 V, I LOAD = 10 mA 0.50V V S = 5.4 V, I LOAD = 25 mA1.30V SLEEP PINLogic High Input Voltage V H 2.4V Logic High Input Current I H –8µA Logic Low Input Voltage V L 0.8V Logic Low Input Current I L–8µA SUPPLY CURRENT No Load 45µA Sleep ModeNo Load15µANOTES 1For proper operation, a 1 µF capacitor is required between the output pin and the GND pin of the device.2TCV O is defined as the ratio of output change with temperature variation to the specified temperature range expressed in ppm/°C.TCV O =(V MAX –V MIN )/V O (T MAX –T MIN ).3Guaranteed by characterization.4Line and load regulation specifications include the effect of self-heating.Specifications subject to change without notice.(@ V S = 5.0 V, T A = 25؇C, unless otherwise noted.)(@ V S= 5.0 V, –40؇C ≤ T A≤ +85؇C, unless otherwise noted.)REV. E REF19x Series–13–REF198–SPECIFICATIONSELECTRICAL CHARACTERISTICSParameterSymbolCondition MinTyp MaxUnit TEMPERATURE COEFFICIENT 1, 2E Grade TCV O /°C I OUT = 0 mA2ppm/°C F Grade 5ppm/°C G Grade 310ppm/°C LINE REGULATION 4E Grade⌬V O /⌬V IN4.5 V ≤ V S ≤ 15 V, I OUT = 0 mA5ppm/V F and G Grades 10ppm/V LOAD REGULATION 4E Grade⌬V O /⌬V LOAD V S = 5.6 V, 0 mA ≤ I OUT ≤ 20 mA 5ppm/mA F and G Grades 10ppm/mA DROPOUT VOLTAGEV S – V OV S = 4.7 V, I LOAD = 10 mA 0.60V V S = 5.6 V, I LOAD = 20 mA1.50VNOTES 1For proper operation, a 1 µF capacitor is required between the output pin and the GND pin of the device.2TCV O is defined as the ratio of output change with temperature variation to the specified temperature range expressed in ppm °C.TCV O =(V MAX –V MIN )/V O (T MAX –T MIN ).3Guaranteed by characterization.4Line and load regulation specifications include the effect of self-heating.Specifications subject to change without notice.(@ V S = 5.0 V, –40؇C ≤ T A ≤ +125؇C, unless otherwise noted.)。

THE POWER MANAGEMENT LEADER Automotive High Voltage ICs Product Selection GuideSingle Channel High-Side DriversPart Voltage Package Output Source / Sink Current VCC Range VBSRange Typ. Prop Delay FeaturesAUIRS20153150V SOIC8+400 / -1500mA5-20V w/UVLO5-20V w/UVLO1000/300ns On/Off Under volatage lockout, Schmitt triggered input, output out of phasewith input, reset inputAUIRS2016200V SOIC8+500 / -500mA 4.4-20V w/UVLO 4.4-20V w/UVLO150/150ns On/Off Under voltage lockoutAUIRS2123600V SOIC8+500 / -500mA10-20V w/UVLO10-20V w/UVLO140/140ns On/Off CMOS Schmitt-triggered inputs with pull-down, output in phasewith inputAUIRS2124600V SOIC8+500 / -500mA10-20V w/UVLO10-20V w/UVLO140/140ns On/Off CMOS Schmitt-triggered inputs with pull-down, output out of phasewith inputAUIRS21271600V SOIC8+200 / -420mA10-20V w/UVLO9-20V w/UVLO150/150ns On/Off Under voltage lockout, 3.3V, 5V and 15V input logic compatible, Faultoutput, output in phase with inputAUIRS21281600V SOIC8+200 / -420mA10-20V w/UVLO9-20V w/UVLO150/150ns On/Off Under voltage lockout, 3.3V, 5V and 15V input logic compatible, Faultoutput, output out of phase with inputAUIRS21851600V SOIC8+4.0 / -4.0A10-20V w/UVLO10-20V w/UVLO160/160ns On/Off Under voltage lockout, 3.3V and 5V input logic compatiable, matchedpropogation delaysAUIRS2117600V SOIC8+290 / -600mA10-20V w/UVLO10-20V w/UVLO125/105ns On/Off Under volatage lockout, Schmitt triggered input with pull down, outputin phase with inputAUIRS2118600V SOIC8+290 / -600mA10-20V w/UVLO10-20V w/UVLO125/105ns On/Off Under volatage lockout, Inverting Schmitt triggered input with pull down,output in phase with inputDual Channel Low-Side DriversPart Voltage Package Output Source / Sink Current VCC Range VBSRange Typ. Prop Delay Features*AUIRS4427Low Side SOIC8+2.3 / -3.3A6-20V w/UVLO6-20V w/UVLO50/50ns On/Off 3.3V, 5V, and 15V input logic compatible, matched propagation delay,output in phase with inputs, CMOS Schmitt-triggered inputs*AUIRS4428Low Side SOIC8+2.3 / -3.3A6-20V w/UVLO6-20V w/UVLO50/50ns On/Off 3.3V and 5V input logic compatible, matched propagation delay, outputA out of phase with input A, outputB in phase with input B, CMOS Schmitt-triggered inputsDual Channel High- and Low-Side DriversPart Voltage Package Output Source / Sink Current VCC Range VBSRange Typ. Prop Delay Features*AUIRS2301600V SOIC8+200 / -350mA5-20V w/UVLO5-20V w/UVLO220/200ns On/Off Under voltage lockout for both channels, 3.3V, 5V and 15V logic compatible,matched propagation delayAUIRS2607D600V SOIC8+200 / -350mA10-20V w/UVLO10-20V w/UVLO515/500ns On/Off Under voltage lockout for both channels, 3.3V, 5V and 15V logic compatible, matched propagation delay, outputs in phse with inputs, integrated boostrap diode*AUIRS2191600V SO16+4.0 / -4.0A10-20V w/UVLO10-20V w/UVLO90/90ns On/Off Under voltage lockout for both channels, 3.3V and 5V logic compat-ible, matched propagation delay, CMOS Schmitt-triggered inputs with pull downAUIRS2181600V SOIC8+1.4 / -1.8A10-20V w/UVLO10-20V w/UVLO180/220ns On/Off Under voltage lockout for both channels, 3.3V and 5V logic compatible,matched propagation delayAUIRS21814600V SOIC14+1.4 / -1.8A10-20V w/UVLO10-20V w/UVLO180/220ns On/Off Under voltage lockout for both channels, 3.3V and 5V logic compatible,matched propagation delay, separate logic and power ground*AUIRS21811600V SOIC8+1.4 / -1.8A10-20V w/UVLO10-20V w/UVLO120/120ns On/Off Under voltage lockout, 3.3V and 5V logic compatible, CMOS Schmitt-triggered inputs, matched propagation delay, lower di/dt gate driver for better noise imunity*AUIRS218114600V SOIC14+1.4 / -1.8A10-20V w/UVLO10-20V w/UVLO120/120ns On/Off Under voltage lockout, 3.3V and 5V logic compatible, CMOS Schmitt-triggered inputs, matched propagation delay, lower di/dt gate driver for better noise imunity, separate logic and power groundAUIRS2110500V SOIC16+2.0 / -2.0A10-20V w/UVLO10-20V w/UVLO130/120ns On/Off Under voltage lockout for both channels, 3.3V logic compatible, separate logic supply from 3.3V to 20V, CMOS Schmitt-triggered inputs with pull down, matched propagation delay, separate logic and power ground, 10nS delay matchingAUIRS2112600V SOIC16+200 / -440mA10-20V w/UVLO10-20V w/UVLO135/105ns On/Off Under voltage lockout for both channels, 3.3V logic compatible, separate logic supply from 3.3V to 20V, CMOS Schmitt-triggered inputs with pull down, matched propagation delay, separate logic and power ground, 30nS delay matchingAUIRS2113600V SOIC16+2.0 / -2.0A10-20V w/UVLO10-20V w/UVLO130/120ns On/Off Under voltage lockout for both channels, 3.3V logic compatible, separate logic supply from 3.3V to 20V, CMOS Schmitt-triggered inputs with pull down, matched propagation delay, separate logic and power ground, 20nS delay matchingAUIR22131200V SOIC16+1.7 / -2.5A12-20V w/UVLO12-20V w/UVLO280/225ns On/Off Under voltage lockout for both channels, 3.3V logic compatible, separate logic supply from 3.3V to 20V, CMOS Schmitt-triggered inputs with pull down, matched propagation delay, separate logic and power ground, cycle by cycle edge-triggered shutdown logic, 30nS delay matchingAutomotive High Voltage IC | Product Selection GuideNew Part NumberingPartStatusAUIRxxxx Orders acceptedAUIRxxxx Coming in 2009, samples available under standard industrial IR part numbers AUIRxxx –>> IRxxx *AUIRxxxxNew design coming in 2009, engineering samples avaliableSingle-Phase Half-Bridge DriversPartVoltagePackageOutput Source / Sink CurrentV CC RangeV BS RangeTyp. Prop DelayFeaturesAUIR2085100V SOIC8+1.0 / -1.0A 10-15V w/UVLO 10-15V w/UVLO 40/20ns On/Off Integrated 50% duty cycle oscillator, programmable switching fre-quency and dead time, adjustable dead time, adjustable over current protection, under voltage lockout and soft startAUIRS2003200V SOIC8+130 / -270mA 10-20V w/UVLO 10-20V w/UVLO 680/150ns On/Off Under voltage lockout, 3.3V, 5V and 15V logic compatible input, shoot-through protection, matched propagation delay*AUIR2302600V SOIC8+0.2 / -0.35A 5-20V w/UVLO 5-20V w/UVLO 750/200ns On/Off Under voltage lockout, 3.3V, 5V and 15V logic compatible input, shoot-through protection, matched propagation delayAUIRS2608D 600V SOIC8+200 / -350mA 10-20V w/UVLO 10-20V w/UVLO 250/250ns On/Off Under voltage lockout, 3.3V, 5V and 15V logic compatible input, shoot-through protection, matched propagation delay, HS and LS inputs *AUIRS26084D 600V SOIC14+200 / -350mA 10-20V w/UVLO 10-20V w/UVLO 220/220ns On/Off Under voltage lockout, 3.3V, 5V and 15V logic compatible input, shoot-through protection, matched propagation delay, HS and LS inputs, separate logic and power groundAUIRS2609D 600V SOIC8+120 / -250mA 10-20V w/UVLO 10-20V w/UVLO 750/200ns On/Off Under voltage lockout, 3.3V, 5V and 15V logic compatible input, shoot-through protection, matched propagation delayAUIRS2184600V SOIC8+1.4 / -1.8A 10-20V w/UVLO 10-20V w/UVLO 680/270ns On/Off Under voltage lockout, 3.3V and 5V input logic compatible, matched propagation delay on both channelsAUIRS21844600V SOIC14+1.4 / -1.8A 10-20V w/UVLO 10-20V w/UVLO 680/270ns On/Off Under voltage lockout, 3.3V and 5V input logic compatible, matched propagation delay on both channels, all high voltage pins on one side of package, separate logic and power groundAUIR2114600V SSOP24+1.0 / -1.5A 11.5-20V w/UVLO 10.4-20V w/UVLO 440/440ns On/Off Soft over current shutdown, synchronization signal, integrated desatu-ration circuit, two stage turn on output for di/dt control, matched delay AUIR21141600V SSOP24+1.0 / -1.5A 11.5-20V w/UVLO 10.4-20V w/UVLO 440/440ns On/Off Soft over current shutdown, synchronization signal, integrated desatu-ration circuit, two stage turn on output for di/dt control, matched delay AUIR22141200V SSOP24+1.0 / -1.5A 11.5-20V w/UVLO 10.4-20V w/UVLO 440/440ns On/Off Soft over current shutdown, synchronization signal, integrated desatu-ration circuit, two stage turn on output for di/dt control, matched delay AUIR221411200VSSOP24+1.0 / -1.5A11.5-20V w/UVLO10.4-20V w/UVLO440/440ns On/OffSoft over current shutdown, synchronization signal, integrated desatu-ration circuit, two stage turn on output for di/dt control, matched delay3-Phase Inverter DriversPartVoltagePackageOutput Source / Sink CurrentV CC RangeV BS RangeTyp. Prop DelayFeatures*AUIRS2060200V SOIC28+1.0 / -1.0A 9-20V w/UVLO 9-20V w/UVLO 60/60ns On/Off Under voltage lockout, 3.3V and 5V logic input, shutdown input, tolerant to negative voltage transient*AUIRS2034200V SOIC20+200 / -350mA 10-20V w/UVLO 10-20V w/UVLO 530/530ns On/Off Under voltage lockout, 3.3V and 5V logic input, shoot through protection, matched propogation delays, fixed deadtime*AUIRS2334600V SOIC20+290 / -600mA 10-20V w/UVLO 10-20V w/UVLO 530/530ns On/Off Under voltage lockout, tolerant to negative transient voltage, 3.3V logic in-put, shoot through protection, matched propogation delays, fixed deadtime, spearate low and high side inputs in-phase with outputAUIRS2330(D)600V SOIC28+200 / -420mA 10-20V w/UVLO 10-20V w/UVLO 500/500ns On/Off Under voltage lockout, over current shutdown, 3.3V logic input, cross con-duction prevention logic, tolerant to negative voltage transient, integrated Op-Amp, deadtime of 2.0usAUIRS2332(D)600VSOIC28+200 / -420mA10-20V w/UVLO10-20V w/UVLO500/500ns On/OffUnder voltage lockout, over current shutdown, 3.3V logic input, cross con-duction prevention logic, tolerant to negative voltage transient, integrated Op-Amp, deadtime of 0.7usAUIRS2336(D)600V SOIC28+200 / -350mA 10-20V w/UVLO 10-20V w/UVLO 530/530ns On/OffUnder voltage lockout, over current and temperature shutdown, 3.3V logic input, cross conduction prevention logic, tolerant to negative voltage transient, adjustable fault clear timing, separate logic and power grounds, advanced input filterAUIRS23364(D)600V SOIC28+200 / -350mA 11.5-20V w/UVLO 11.5-20V w/UVLO 530/530ns On/Off Under voltage lockout, over current and temperature shutdown, 3.3V logic input, cross conduction prevention logic, tolerant to negative voltage transient, adjustable fault clear timing, separate logic and power grounds, advanced input filterAUIR2132600V PLCC44+200 / -420mA 10-20V w/UVLO 10-20V w/UVLO 675/425ns On/Off Under voltage lockout, over current shutdown, 2.5V logic input, cross conduction prevention logic, tolerant to negative voltage transient AUIR2133600V PLCC44+200 / -420mA 10-20V w/UVLO 10-20V w/UVLO 750/700ns On/Off Under voltage lockout, over current shutdown, 2.5V logic input, tolerant to negative voltage transientAUIR22331200VPLCC44+200 / -420mA10-20V w/UVLO10-20V w/UVLO750/700ns On/OffUnder voltage lockout, over current shutdown, 2.5V logic input, tolerant to negative voltage transient3-Phase Inverter Drivers With Power Supply Pre-RegulatorPartVoltagePackageOutput Source / Sink CurrentV CC RangeV BS RangeTyp. Prop DelayFeatures*AUIRS2030200V SOIC28+200 / -350mA 6-20V w/UVLO 6-20V w/UVLO 700/700ns On/Off200V Full three phase gate driver w/ charge pump, Under-voltage lock-out, Cross-conduction prevention logic, Charge pump for external pre-regulator N-ch mosfet, Power-on reset, Externally programmable Dead Time up to 6usec, PWM mode control logic, Current sense, 3.3V logic compatible, Matched propagation delay, Floating channel designed for bootstrap operation, Tolerant to negative transient voltage – dV/dt immune, Lower di/dt gate drive for better noise immunity10509。

换屏必备：笔记本液晶屏型号可互换可兼容汇总摘要: 首先让我们学会看液晶屏的型号：以M140NWR2为例; M 代表液晶屏的品牌，常用的品牌有：友达B 三星LTN龙腾M奇美N中华CLAA瀚彩HSD LG LP 等等。

其中140代表尺寸，为14.0英寸，比如LTN156AT02，即为三星15.6英寸的 ...首先让我们学会看液晶屏的型号：以M140NWR2为例; M 代表液晶屏的品牌，常用的品牌有：友达B 三星LTN 龙腾M 奇美N 中华CLAA瀚彩HSD LG LP 等等。

其中140代表尺寸，为14.0英寸，比如LTN156AT02，即为三星15.6英寸的屏幕。

至于屏幕具体的参数，大家可以到屏库这个网站搜索一下，如图所示，能知道液晶屏具体分辨率，尺寸，接口以下是各尺寸液晶屏可代用和兼容型号10.1超薄led液晶屏CLAA101WB03 LP101WH2 TLA2 M101NWT2R0 B101EW01 B101AW06 LTN101NT05 LP101WSBB101AW06 V.1 N101L6-L0D N101LGE-L41 LTN101NT08 HSD101PFW4左右螺丝孔的，10.1寸LED 超薄液晶屏都通用的。

（10.1超薄led，高分屏和普分屏有些机器不支持互换）华硕EPC X101CH笔记本X101H笔记本B101AW06V.4 N101L6-L0D华硕EPC 700 701华硕1008HA 1008HD 联想S100 S110 M13S105 S10 S10E S10-2宏基D255E D257 D260 ACER 宏基PAV70KAV70 方正R100神舟S500华硕EPC 1008P 1025C11.6超薄led液晶屏LTN116AT06 N116BGE-L32 CLAA116WA03A LP116WH2 LTN116AT02 LTN116AT04N116BGE-L41 N116B6-L04 M116NWR1 B116XW03 V.2 B116XW03 V.3 B116XW01 V.0 华硕1225b 1225C X201 X201E 惠普dm1-1119TU dm1-1023TUdm1-1022TU 联想ThinkPad E120 E135 E125 X121E X130E U150 U160S206HP 明基U121戴尔P03T M101Z 戴尔Inspiron 11z DELL戴尔InspironM101z-1120 M11X P03T M102Z 索尼PCG-31311T 31311W 31211T13.3超薄led液晶屏b133xtn01.0 B133XW01 V.0 B133XW01 V.1 B133XW01 v.2 B133XW01v.4 B133XW01 v.5 LP133WH2 LTN133AT27 CLAA133WA01A B133XW03V.0B133XW03 V.1 B133XW03 v.4 B133XW03v.5 N133BGE-L41 N133BGE-L31 LTN133AT16 B133XTN01.0 ltn133at20联想U350 V360 E30 E3 V370 Z370 G370 E320 E325 U360 Y370 U310 V370GZ380 S300 E30 E31华硕UL30 UX30A U31J U35J UL30A SONY S138EC/b S125EC/p S13S9CS118EC/BSONYVPCSD100C VPCSD200C VPCSD300C VPCSD400CSONYVPCS115EC VPCS118EC VPCS119 VPCS119GC VPCS115FG14.0led中厚度液晶屏LP140WH1 B140XW01 HSD140PHW1 N140B6 LTN140AT02 LTN140AT04 HT140WXBHB140WX1 LTN140AT07 BT140GW01 LTN140AT01 LP140WH4 N140BG EM140NWR2 LTN140AT16 LTN140AT22 LTN140AT26 LTN140AT19 B140XW04联想G450 G455 Y450 B450L SL410K G460 E40 B460 B470 B490 B480 G470 G475 B465 Z460 Z470 G465 E430 G460E G480 G485 N480 G400 G450L SL410 E45 B465C Y460C Z475 Z470A B4303 B4305 B4306 B4307 B4308 B4309 B4310 B4311三星：6478 Q430 P428 R42P R467 R468 R463 R470 R440 R420 R464 R428 R430 R425 R423 R439 R429 RV410 RV411 RV415 RV420 R478 R480 E3415 E3420RV408 RV409惠普：CQ42 CQ42X G42 G41 G42 X42 CQ511 CQ510 CQ510CQ541 4411S 4416S 516 515戴尔：M4040 N4010 N4020 N4030 N4050 N4110 N4120 1088 1440 1014 1464 1045 PP42L N4010 1450 1410 N4050 M4020东芝：L600 L630 L535 L538 L537 L551 C600 L510 L700 M503 M505M506 L645华硕：A43SJ X43SJ A42JZ A40JZ X43U X8DIJ F81S X8E X8AC N82X84H X85 K40 K41 K42 X42J K40IN K40I A41E A42E A42J X43S P42A40 N43 A41 K41V K42E X43B X8A X85S A41I X87 F81 F81E X85E K45VDX44H宏基：4741G 4736ZG 4739Z 4743G 4750G 4738ZG 4752 4755G 47414736G 4738G 4835G 4745G 4740G 4735Z 4741Z 4540G 4540 4551G D730 D725 D728 D52514.0led超薄液晶屏LTN140AT06 LTN140AT11 LTN140AT08 LP140WH2 LP140WH3 LTN140AT 20 B140XW03 LTN140AT12 B140XTN02.0 N140B6-L06 N140BGE-L41 H B140WX1-300联想Y460 Y470N U460 Y480A S400 S405 S420 Y470 E420 U410Y480 Y470 Y480 V460 Y471 E425 U400 U410 E460A E42S E430 E425ST420I T420S三星R418 NP300E4A 305v4A 305E4A方正R430IG R430华硕ASUS X401a UL80 U45 X401宏基ACER 4810T AS4820 4820T戴尔V3300V3400 3400 Vostro 3400 清华同方K41H K46A K47A K468 K469 K485X46 K466索尼PCG-61113T PCG-61212T W PCG-61211T15.6led液晶屏B156XW02V2 HT156WXB LP156WH2 LTN156AT02 N156BGE-L21 LP156WH4 LTN15 6AT05 LP156WD1 LTN156AT24LTN156AT09 LTN156AT05 LP156WH2 N156B6-L02/L04/L06 BT156GW01HT156WXBB156XTN02.2 HT156WXB 华硕A53S X53S K53SJ K52DA55XI G51J X54H K51 X56 A53 K54 X55V A55N53SV N53JF VX53SJX53U A53 A53X K53 K53X X54 X54E N53 K50 K52 K53SC K53TK P53 N53 X53S A53SV联想z565 G570 G580 E50 E520 E525 SL510 Z570 B570 V570 B560A V560 Z560 B550 G550 W510 W520 Y560P W510 T510 SL510 G590 G565 V570 G575 G580 G585 Thinkpad E520 E525 E535三星R518 R522 R523 R538 RV515 R528东芝L650 L650D C655 C650 C660 A660 L750 L400 L850惠普HP 4520S DV6 CQ60 CQ61 CQ62 4515s 4525s 4510s戴尔I1555 I1545 F414J M5010 M5030 1545 1555 1564 1556 M5110 M5010 N5110 N5010 N5020神舟K580 A560P K580 K580S K580P宏基ACER 5536 5745 5810T 5820 5742G 5830T 5749 5750g5760 5742 5740G 5935ZG 5538ZG 5738索尼VPCEH-112T VPCEH-111T15.6led超薄液晶屏N156BGE-LB1 B156XW03 LP156WH3 N156B6-L0D B156XW04 LTN1 56AT20 B156XTN03.2 LTN156AT11 N156BGE-L41 CLAA156WA15A LT N156AT29 宏基:5820T 5810T 5820 5625G V5-551 571 MS2361 572 5820TZ 5820TG 5810tz M3-581TG联想:y560 U550 Z500 S5华硕:X501 X501A X501A1X501U K56 S56 K56C X501A A56C X550戴尔:15Z-1569 15r 5521 5523 1528惠普：Envy 6 1215 1001 1005TX 1016TX dv6-7002tx 7045tx g6-1303tx索尼：SVE15 E15118 E15116 SVE15117FJP 微星：MSI X60015 .4 LCD 液晶屏LP154WX2 LP154WE2 LP154WX5 LTN154X3-L09 CLAA154WA05B154EW04 B154EW03 LTN154AT01 N154I5-L02 N154I2-L02 N154X3 LP154EW02LTN154WX2-L01 N154I1-L01 CLAA1154EW04 LP154WX4 LP154W01 B15 4EW08 B154EW01 B154EW02 N154I3-L02 LTN154X3-L02 LP154WX3 LP154W02 LTN154X1LTN154X9 LTN154X2 LTN154AT07 LTN154AT09 CLAA154WA01方正R511神州L3000D L350S L480T L525T L575T HP870宏基5100 5120 1692 3610 3613 E5670 5680 明基A51E A51 A52 A52E A82 A52E A53联想天逸F50 C510 3000 G530 F50A F51A Y810 Y800富士通M1450G AMILO PI2530华硕A6000 X1000 X1400 X53R X50Q X50C X50S X52S 戴尔D800D810 D820 D830 M60 M70 6000 8500 8600 希望对大家有帮助。

Typical applicaTionFeaTuresDescripTionSynchronous Rectifier DriverThe L T ®8309 is a secondary-side synchronous rectifier driver that replaces the output rectifier diode in a flyback topology. By replacing the diode with a N-channel MOSFET, applications are no longer restricted by the heat constraints of the output diode. The IC replicates the behavior of a diode by sensing the drain-to-source voltage to determine when the current becomes negative. The LT8309's low minimum on- and off-times help improve noise immunity. The fast propagation delay of 26ns allows applications to operate in discontinuous conduction mode (DCM) and critical conduction mode (CrCM). The gate driver features a 0.8Ω pull-down device for fast turn-offs. The 40V V CC rating allows the part to be driven from the output volt-age or the rectified drain voltage of the MOSFET. A low quiescent current of 400µA maximizes efficiency at low output currents.40W, 5V Isolated Telecom SupplyEfficiency vs Load CurrentapplicaTionsnWorks with DCM and BCM/CrCM Conduction Mode Flyback Topologies n V CC: 4.5V to 40V n Supports Up to 150V MOSFETs n 26ns Turn-Off Propagation Delayn Accurate Minimum On and Off Timers for Reliable Operationn Adjustable and Accurate T rip Point: +5mV to –30mV n 1Ω Gate Driver Pull-Down n SOT-23 5-Lead PackagenHigh Output Current Flybacks n High Efficiency FlybacksL , L T, L TC, L TM, Linear Technology and the Linear logo are registered trademarks ofLinear Technology Corporation. All other trademarks are the property of their respective owners.OUT +, 8AOUT –VLOAD CURRENT (A)065E F F I C I E N C Y (%)708090123465775851009588309 TA01bpin conFiguraTionabsoluTe MaxiMuM raTingsV CC ............................................................................40V INTV CC GATE ............................................................10V DRAIN .....................................................................150V Maximum Junction Temperature ..........................125°C Operating Temperature Range (Note 2)LT8309E ............................................–40°C to 125°C LT8309I .............................................–40°C to 125°C LT8309H ............................................–40°C to 150°C Storage Temperature Range ..................–65°C to 150°C(Note 1)GATE 1GND 2TOP VIEWS5 PACKAGE5-LEAD PLASTIC TSOT-23INTV CC 35 DRAIN4 V CCθJA = 215°C/WorDer inForMaTionLEAD FREE FINISH TAPE AND REEL PART MARKING*PACKAGE DESCRIPTION TEMPERATURE RANGE LT8309ES5#PBF LT8309ES5#TRPBF L TGFZ 5-Lead Plastic TSOT-23–40°C to 125°C LT8309IS5#PBF LT8309IS5#TRPBF L TGFZ 5-Lead Plastic TSOT-23–40°C to 125°C LT8309HS5#PBFLT8309HS5#TRPBFL TGFZ5-Lead Plastic TSOT-23–40°C to 150°CConsult L TC Marketing for parts specified with wider operating temperature ranges. *The temperature grade is identified by a label on the shipping container.For more information on lead free part marking, go to: /leadfree/For more information on tape and reel specifications, go to: /tapeandreel/elecTrical characTerisTicsNote 1: Stresses beyond those listed under Absolute Maximum Ratings may cause permanent damage to the device. Exposure to any Absolute Maximum Rating condition for extended periods may affect device reliability and lifetime.Note 2: The LT8309E is guaranteed to meet performance specifications from 0°C to 125°C operating junction temperature. Specifications over the –40°C to 125°C operating junction temperature range are assured by design, characterization and correlation with statistical process controls. The LT8309I is guaranteed over the full –40°C to 125°C operating junctionPARAMETER CONDITIONSMIN TYP MAX UNITSInput Voltage Range l4.540V V CC Quiescent Current Not Switching, INTV CC = 8V 300345µA Comparator Turn-On Threshold R S = 0Ωl –69–57–45mV Turn-Off Threshold R S = 0Ω l17 162125 28mV mV Drain Voltage Latch Reset R S = 0Ω1.21V Minimum Off-Time 7595115ns Minimum On-Time 310360410ns Drain CurrentOut of Pinl 9.51010.5µA INTV CC Linear Regulator INTV CC Quiescent Current Not Switching, INTV CC = 8V100117µA INTV CC Voltage Range 4.510V INTV CC Regulation Voltage l6.877.2V INTV CC UVLO4.03V Dropout (V CC to INTV CC )I INTVCC = –10mA, V IN = 7V1 1.3 1.6V Current Limit l 304255mAGate DriverTurn-On Propagation Delay (t D(ON))R S = 0Ω, –100mV OD , V DS to V GATE 3140ns Turn-Off Propagation Delay (t D(OFF))R S = 0Ω, –100mV OD , V DS to V GATE 2636ns t r GATE Driver Output Rise Time C L = 3300pF 21ns t f GATE Driver Output Fall Time C L = 3300pF11ns Pull-Up Resistance 2.7ΩPull-Down Resistance0.8ΩThe l denotes the specifications which apply over the full operating temperature range, otherwise specifications are at T A = 25°C.temperature range. The LT8309H is guaranteed over the full –40°C to 150°C operating junction temperature range. High junction temperatures degrade operating lifetimes. Operating lifetime is derated at junction temperatures greater than 125°C.Note 3: The LT8309 includes overtemperature protection that is intended to protect the device during momentary overload conditions. Junction temperature will exceed 150°C when overtemperature protection is active. Continuous operation above the specified maximum operating junction temperature may impair device reliability.TEMPERATURE (°C)–500V C C I Q C U R R E N T (µA )50150250–252550100751251002003504503004001508309 G01TEMPERATURE (°C)–50I N T V C C I Q C U R R E N T (µA )–252550100751251508309 G02408012016020020601001401800I N T V C C V O L T A G E (V )24681357V CC VOL TAGE (V)102030408309 G04TEMPERATURE (°C)–503.0T H R E S H O L D V O L T A G E (V )3.54.5–252550100751255.04.01508309 G05INTV CC CURRENT (mA)I N T V C C R E G U L A T O R D R O P O U T (V )1.51020302.51.00.52.0408309 G06TEMPERATURE (°C)–500I N T V C C D R O P O U T (V )1.0–252550100751252.00.51.51508309 G07TEMPERATURE (°C)–500I N T V C C C U R R E N T L I M I T (m A )103050–252550100751252040601508309 G08Typical perForMance characTerisTicsINTV CC Voltage vs V CC VoltageINTV CC Undervoltage Lockout vs TemperatureINTV CC Regulator Dropout vs INTV CC CurrentINTV CC Dropout vs TemperatureINTV CC Current Limit vs TemperatureMinimum On-Time and Off-Time vs TemperatureI VCC vs TemperatureI INTVCC vs TemperatureINTV CC vs TemperatureTEMPERATURE (°C)–100–50T I M E (n s )501001502008309 G0950150250100200350300400TEMPERATURE (°C)–506.0I N T V C C V O L T A G E (V )6.46.87.2–252550100751258.07.86.26.67.07.47.61508309 G03TEMPERATURE (°C)–500D R A I N P I N C U R RE N T (µA )2612–252550100751251048141508309 G10TEMPERATURE (°C)–50T U R N -O N T H R E S H O L D (m V )–252550100751251508309 G11–80–70–60–50–40–75–65–55–45TEMPERATURE (°C)–50T U R N -O F F T H R E S H O L D (m V )–252550100751251508309 G12102030405152535TEMPERATURE (°C)–501.00T H R E S H O L D V O L T A G E (V )1.101.201.30–252550100751251.401.051.151.251.351508309 G13Typical perForMance characTerisTicsLatch Reset Thresholdvs TemperatureGATE Rise and Fall Time vs ChargeGATE Current vs ChargeDRAIN Pin Current vs TemperatureComparator Turn-On Thresholdvs TemperatureComparator Turn-Off Threshold vs Temperature0T I M E (n s )50150200100CHARGE (nC)6012030901508309 G14T I M E (n s )1.02.03.04.00.51.52.53.5CHARGE (nC)8309 G150601203090150block DiagraMpin FuncTionsGATE (Pin 1): N-Channel MOSFET Gate Driver Output. Switches between INTV CC and GND. Driven to GND during undervoltage lockout of INTV CC . GND (Pin 2): Ground.INTV CC (Pin 3): Regulated Supply for Internal Loads, and GATE Driver. Supplied from V CC and regulates to 7V (typical). INTV CC must be bypassed with a 4.7µF capacitor placed close to the pin.V CC (Pin 4): Input Voltage. This pin supplies current to the internal start-up circuitry and to the INTV CC LDO. This pin must be locally bypassed with a capacitor.DRAIN (Pin 5): Current Sense Pin. This pin sensesthe voltage across the drain-to-source of the externalN-channel MOSFET. A series resistor is needed to set the offset voltage and needs to be at least 800Ω. The offset is equal to:20mV •1−R 20008309 F01GND V OFFSETD(ON)D(OFF)operaTionThe LT8309 is a synchronous rectifier designed for boundary conduction mode/critical conduction mode and discontinuous mode flyback converters. Existing solutions use a pulse signal from the primary side to control the synchronous rectifier, but the LT8309 senses the drain-source voltage of the MOSFET to control the synchronous rectifier. This technique not only elimi-nates a transformer, but allows it to work with Linear Technology’s line of no-opto critical conduction flyback converters. Synchronous rectification improves ef-ficiency and more importantly increases the maximum output current when compared to nonsynchronous designs.The LT8309 imitates the behavior of a diode but re-places the forward voltage with the R DS(ON) of an externalN-channel MOSFET. The LT8309 includes an LDO, a very fast comparator and a powerful gate driver.An external resistor connects the part’s DRAIN pin to the drain of the MOSFET. This resistor sets the trip point of the comparator with a precise internal current source. To set the trip point to –10mV, a 3000Ω resistor is needed. The trip point decreases by 1mV for every 100Ω added to this drain resistor. This trip point will be referred to as V OFFSET . Figure 1 shows the drain waveform on top and the gate waveform on the bottom. The gate node goes high when the drain node goes 74mV below the V OFFSET . The comparator’s output is ignored for a minimum on-time to eliminate the chance that ringing triggers the comparator. After the minimum on-time, the comparator is ready to trigger at the V OFFSET voltage. Once the drain voltage goes above V OFFSET , the gate turns off after a very fast propaga-tion delay, t D(OFF). The body diode begins to conduct again before the current reaches 0A. The drain voltage needs to go above 1.21V and then wait for the minimum off-time before the comparator is re-enabled.Figure 1. Drain and Gate WaveformsOUTV operaTionUndervoltage LockoutThe part features a INTV CC undervoltage lockout (UVLO) to prevent switching until the INTV CC voltage is above 4V. INTV CC LDOAn internal LDO regulator provides a regulated 7V output from the V IN pin to the INTV CC pin. An output capacitor is needed to provide the current needed for the gate driver. A 4.7µF capacitor is recommended and must be placed as close as possible to the INTV CC pin. The current limit for the LDO is 42mA.MOSFET SelectionA MOSFET’s R DS(ON) is important to the operation of the LT8309. The drain-source voltage is used to determine when to turn off the MOSFET. The peak current through the MOSFET times the MOSFET’s R DS(ON) should be above 75mV. When this voltage is too low, the high speed comparator may trip early due to ringing on the DRAIN pin. When this voltage is too high, the MOSFET dissipates a large amount of power which causes efficiency to go down and may cause thermal issues with the MOSFET.Setting the DRAIN Pin ResistorThe DRAIN pin resistor sets when the LT8309 turns off the MOSFET. The trip point, V OFFSET , is set with the fol-lowing equation:V OFFSET = 20mV – 10µA • R DRAINR DRAIN is the resistor connected between the drain of the MOSFET and the DRAIN pin of the part. R DRAIN needs to be at least 800Ω to operate correctly. For most applications, V OFFSET should be set at –5mV. High R DS(ON) MOSFETs may require a more negative V OFFSET voltage to keep the drain-to-source current from reversing. If the current is reversing, decrease V OFFSET in 5mV steps to eliminate the cross-conduction. Short-Circuit OperationIn the Typical Application diagram on Page 1, the V CC pin is connected to the output of the flyback converter. During an output short-circuit condition, the LT8309 is off and the body diode of the MOSFET must handle the short-circuit condition. This puts additional thermal requirements on the MOSFET. The drain voltage of the MOSFET is equal to V IN /N in short-circuit and capable of powering the LT8309 with the circuit in Figure 2. This allows the LT8309Figure 2. Short-Circuit Application CircuitoperaTionFigure 3. Demo Board Topside Silkscreen Figure 4. Demo Board Topside Metalto operate during a short, and the current will flow throughthe low resistance channel of the MOSFET instead of itsbody diode. Make sure to use a resistor in series with thediode to keep V CC below 40V.Layout ConsiderationsThe main current loop is the MOSFETs drain-to-sourcecurrent. This should not share the same ground path asthe LT8309. The drain resistor needs to sense directly atthe drain of the MOSFET and not have any current of thedrain current flow through its metal trace. The drain nodeof the MOSFET is used as the heat sink and will need tobe sized according to the power dissipation requirements.Figure 3 is an example layout of the LT8309.Effects of the Body DiodeWhen the discontinuous ring voltage goes below ground,the body diode of the primary-side MOSFET turns on andbegins to conduct current. This diode clamps the voltageto a diode drop below ground. When the current reversesdirection, the diode does not turn off immediately, andconducts current in the opposite direction for a small periodof time. This is known as the reverse-recovery time. Duringthis time, the magnetizing inductance of the transformerstores energy just like it does when the MOSFET turnson. When the primary-side body diode finally turns off,the energy is transferred to the secondary side and maybe enough to turn on the body diode of the secondaryMOSFET. Then, the LT8309 turns on its MOSFET for asecond time. Since this happens during the discontinuousring, the primary side may turn on during this time andcause cross conduction. If this problem does occur, oneway to improve the reverse-recovery time of the primaryside’s MOSFET is to add a parallel Schottky diode, whichwill conduct most of the current and turn off much fasterthan the body diode. Another way of eliminating this issueis by sizing the turns ratio so that the discontinuous ringnever goes below ground.Typical applicaTions60W, 12V Output, Isolated Telecom SupplyV, 5AOUT–Typical applicaTions40W, 5V Isolated Telecom SupplyV, 8AOUT–118309faFor more information /L T8309package DescripTionPlease refer to /designtools/packaging/ for the most recent package drawings.0.30 – 0.45 TYP5 PLCS (NOTE 3)(NOTE 3)S5 TSOT-23 0302 NOTE:1. DIMENSIONS ARE IN MILLIMETERS2. DRAWING NOT TO SCALE3. DIMENSIONS ARE INCLUSIVE OF PLATING4. DIMENSIONS ARE EXCLUSIVE OF MOLD FLASH AND METAL BURR5. MOLD FLASH SHALL NOT EXCEED 0.254mm6. JEDEC PACKAGE REFERENCE IS MO-1930.620.95RECOMMENDED SOLDER PAD LAYOUTPER IPC CALCULATORS5 Package3-Lead Plastic TSOT-23(Reference LTC DWG # 05-08-1635)128309faFor more information /L T8309138309faFor more information www.linear .com/L T8309Information furnished by Linear Technology Corporation is believed to be accurate and reliable. However, no responsibility is assumed for its use. Linear Technology Corporation makes no representa-tion that the interconnection of its circuits as described herein will not infringe on existing patent rights.revision hisToryREV DATE DESCRIPTION PAGE NUMBERA11/14Added H-Grade Version2, 3148309faFor more information www.linear .com/L T8309LINEAR TECHNOLOGY CORPORA TION 2014LT 1114 REV A • PRINTED IN USALinear Technology Corporation1630 McCarthy Blvd., Milpitas, CA 95035-7417(408) 432-1900 ● FAX : (408) 434-0507 ● www.linear .com/L T8309relaTeD parTsTypical applicaTionPART NUMBER DESCRIPTIONCOMMENTSLT3748100V Isolated Flyback Controller5V ≤ V IN ≤ 100V, No-Opto Flyback, MSOP-16 PackageLT3798Offline Isolated No-Opto-Coupler Flyback Controller with Active PFCV IN and V OUT Limited Only by External Components, MSOP-16 Package LT3799/LT3799-1Offline Isolated Flyback LED Controller with Active PFC V IN and V OUT Limited Only by External Components, MSOP-16 Package LT3957A/LT395840V/80V Flyback/Boost/Inverting/SEPIC Converter Monolithic with Integrated 5A/3.3A SwitchLT3573/LT3574/ LT357540V Isolated Flyback ConvertersMonolithic No-Opto Flybacks with Integrated 1.25A/0.65A/2.5A Switch LT3757A/LT3759/ LT375840V/100V Boost, Flyback, SEPIC and Inverting Controllers Universal Controllers with Small Package and Powerful Gate Drive LT8302Micropower No-Opto Isolated Flyback Converter2.8V ≤ V IN ≤ 42V, with Integrated3.6A, 65V DMOS Power Switch, 106µA Quiescent Current, SO-8 Package33W, 3.3V Isolated Telecom SupplyOUT +, 10AOUT –V。

▪High-quality Bluetooth® audio streaming for background music or musical accompaniment. Bluetooth® connectivity is available in select countries.▪Quick Smart DSP features best-in-class processing. Easy setup via four presets, sub/top system-match, two-band EQ, five user-programmable presets, visual monitoring of limiter status, input level control and meters, and master volume control to optimize gain structure, all via LCD.▪High-efficiency 1000 W Class-D power amplifier delivers us to 127 dB peak SPL utilizing transducers designed and engineered by EV.▪EV-patented Signal Synchronized Transducers (SST) waveguide design provides precise and consistent coverage, minimal distortion, and maximized acoustical loading.▪Three optimally located handles combined with a rugged composite structure provides the most portable professional sound speaker on the market.NOW STREAMING: Cut through the competition with Bluetooth® enhanced ZLX portableloudspeakersZLX portable loudspeakers offer the best performance and reliability in their class - with components and engineering that work together to make it quicker and easier than ever to take control of your sound, whatever the gig. Now with Bluetooth® enabled wireless audio streaming, legendary ZLX performance becomes even more convenient with the ability to connect to any mobile device for streaming your music library.Featuring custom drivers housed in an innovative cabinet design, the two new wireless, compact, and versatile ZLX models make EV's renowned sound quality and rugged reliability more accessible than ever before.Bluetooth® is available in select countries.Technical specificationspreset.2.Maximum SPL is measured at 1 m using broadband pink noise at maximum output.3.Current rating is specified at 1/8 full output power.Frequency response:Dimensions:System overviewFull-Range loudspeaker control and monitoring interface1253 4876Full-Range loudspeaker amplifier panel1.LCD - DSP control and monitoring interface.2.MASTER VOL - Adjusts the sound level.DSP - Scroll through the menu and select theavailable choices. Push the MASTER VOL knob toenter the DSP menu.3.INPUT LEVEL - Level control for adjusting theindividual inputs’ level. The 12 o’clock position isunity gain (no gain or attenuation), the range to theleft of zero is for adjusting line level sources, and the range to the right of zero (0) is for adjustingmicrophone levels. LINE and MIC input level control is available for both INPUT 1 and INPUT 2.4.POWER - AC switch or switching the power ON orOFF. The LCD screen lights up when the power isturned ON, after approximately 3 seconds.5.MAINS IN - AC connection is established via an IEC-connector.6.INPUT - Balanced input for the connection of signalsources like mixing consoles, instruments, ormicrophones. Connections can be established using¼ inch TRS or XLR connectors.7.OUTPUT - XLR output sends the mix of all inputsignals to another loudspeaker or subwoofer. INPUTLEVEL controls the signal level to OUTPUT. TheMASTER VOL or DSP control settings do not affectOUTPUT. This is also the output for the BT signalwhich is configurable via the MIX OUT setting.8.AUX IN - 3.5 mm audio jack input for connectingexternal audio media devices, such as MP3 players. For more information, see the ZLX Powered Loudspeaker Series Installation manual (F.01U.349.854).Ordering informationZLX-15BT-EU 15" 2-way powered speaker BT EUcord Powered 15-inch 2-way loudspeaker with Bluetooth®and EU cord, blackOrder number ZLX-15BT-EUZLX-15BT-US 15" 2-way powered speaker BT UScord Powered 15-inch 2-way loudspeaker with Bluetooth®and US cord, blackOrder number ZLX-15BT-USAccessoriesZLX-BRKT ZLX Wall Mount BracketWall mount bracket for ZLX-12/12P/12BT andZLX-15/15P/15BT, blackOrder number ZLX-BRKTZLX-15-CVR ZLX Padded Cover for ZLX-15/P - EV Logo Padded cover for ZLX-15/15P/15BT, EV logo, black Order number ZLX-15-CVRRepresented by: Germany:Bosch Sicherheitssysteme GmbH Robert-Bosch-Ring 585630 GrasbrunnGermany Bosch Security Systems, Inc. 12000 Portland Avenue South Burnsville MN 55337USA© Bosch Security Systems 2018 | Data subject to change without notice Document Number | Vs1 | 11. Apr 2018。

新闻发布 双通道 4A 电源通路理想二极管具超低 15mV 正向电压加利福尼亚州米尔皮塔斯 (MILPITAS, CA) – 2011 年 11 月 10 日– 凌力尔特公司(Linear Technology Corporation) 推出单片双通道 4A 电源通路 (PowerPath™) 理想二极管LTC4415，该器件为减少热量、压降和占用的电路板空间而设计，同时可在电源切换电路中延长电池运行时间。

对于那些需要理想二极管“或” (Diode-ORing) 功能以实现负载均分或在两个输入电源之间自动切换的应用而言，LTC4415 是理想的选择。

LTC4415 的超低 15mV 正向电压显著低于肖特基二极管的正向电压，因此可延长电池运行时间，并扩大工作电压范围，同时确保在电源切换时无振荡。

很低的 50mΩ导通电阻可降低功耗并减少热量。

LTC4415 使两个电源能一起工作，从 OUT 引脚回流至 IN 引脚的反向电流小于1µA，从而确保高效率的电源二极管“或”。

该 IC 在低至 1.7V 和高达 5.5V 时工作，从而能很好地与超级电容器备份系统配合，并支持采用更低电压电源轨的趋势。

其他应用包括一般情况下从多个输入电源吸取功率的系统，例如大电流电源通路开关、不间断电源、电池备份系统、具电池备份的应急系统、逻辑控制电源开关、以及汽车和工业系统。

LTC4415 每个理想二极管的最大正向电流为 4A，是可调的，以实现系统灵活性，同时该 IC 消耗不到 45uA 静态电流。

理想二极管的电流可以通过电流限制调节引脚的电压进行监视。

采用具精准门限的互补输入 EN1 和 /EN2 对两个理想二极管进行独立使能，并能任意确定其优先级排序。

如果任何一个输出电压超过其各自的输入电压，那么该理想二极管就关断，且开漏状态引脚指示这种传导状态。

当芯片温度接近过热停机温度，或者如果输出负载超过电流限制门限时，那么相应的报警引脚就被拉低。