LH1511资料

1 Form B

Absolute Maximum Ratings TA=25°C

Stresses in excess of the Absolute Maximum Ratings can cause permanent damage to the device. These are absolute stress ratings only. Functional operation of the

ParameterAmbient Operating Temperature RangeStorage Temperature RangePin Soldering TemperatureInput/Output Isolation TestVoltageLED Continuous Forward Current LED Reverse Voltage dc or Peak ac Load VoltageContinuous dc Load Current Bidirectional Operation Unidirectional OperationPeak Load CurrentOutput Power Dissipation (continuous)SymbolTATstgTSVISOIFVRVLILTest Conditions——t=10 s maxVrms t=1 sIISO=10 µA max—IR ≤ 10 µAIL ≤ 50 µA—150250t=100 ms (single shot)—400550200350600550mAmAmAmWdevice is not implied at these or any other conditions in excess of those given in the operational sections of this document. Exposure to Absolute Maximum Ratings for extended periods of time can adversely affect reliability.

LH1501–40 to +85–40 to +1502605300508350LH1511–40 to +85–40 to +1502605300508200Units°C°C°CVrmsmAVVIPPDISSRecommended Operating Conditions

150LOAD CURRENT (mA)120906030LH1501IFOFF = 2 mAIFOFF = 3 mAIFOFF = 4 mAIFOFF =5 mA to 20 mA200LOAD CURRENT (mA)IFOFF =5 mA to 20 mA1601208040LH1511IFOFF = 2 mAIFOFF = 3 mAIFOFF = 4 mA0–40–200204060800–40–20020406080AMBIENT TEMPERATURE (°C)

AMBIENT TEMPERATURE (°C)IFOFF = 4 mAto 20 mA300LOAD CURRENT (mA)25020015010050LH15360–40–20020406080IFOFF = 1 mAIFOFF = 2 mAIFOFF = 3 mAAMBIENT TEMPERATURE (°C)1

Electrical Characteristics TA=25°C

Minimum and maximum values are testing require-ments. Typical values are characteristics of the device

Parameter

LED Forward Currentfor Switch Turn-off

SymbolIFoff

Test Conditions—

and are the result of engineering evaluations. Typical values are for information purposes only and are not part of the testing requirements.

ValuesMinTypMax

LH1501—1.02.03000.20.9—1501.151.261.451220253.005.006.250.11.4——0.071.0—0.081.0350—45——10——0.1——0.8——2.03.0—1.03.0

LH1511—1.02.01500.20.9—2001.151.261.45610151.502.503.750.11.4——0.071.0—0.071.0200—35——15——0.1——0.8——1.0*3.0*—1.2*3.0*

UnitsmAmAmAVmAmAmAmAVVVΩΩΩΩΩΩGΩGΩGΩµAµAµAµAµAµAVpFpFpFpFpFpFµVµVµVpFpFpFmsmsmsmsmsms

INPUT

VL

LED Forward Currentfor Switch Turn-on

IFon

t=10 ms

±MinTypMax

IL

LED Forward Voltage

VF

IF=10 mA

±MinTypMax

ON-resistance ac/dc

Pins 4, 6 (+) to 5 (–) dc

Pins 4, 6 (+) to 5 (–)

RON

IF=0 mAIL=50 mA

MinTypMax

IF=0 mAIL=100 mA

MinTypMax

OFF-resistance

ROFF

IF=5 mAVL=±100 V

MinTypMax

Off-state

Leakage Current

OUTPUT

—

IF=5 mAVL=±100 V

MinTypMax

IF=5 mA

MinTypMax

VL

Output Capacitance

—

IF=5 mAVL=1 V

±MinTypMax

IF=5 mAVL=50 V

MinTypMax

Switch Offset—

IF=0 mA

MinTypMax

Input/Output Capacitance

CISOVISO=1 V

MinTypMax

Turn-off Time

toffIF=5 mAIL=50 mA

MinTypMax

Turn-on Time

tonIF=5 mAIL=50 mA

MinTypMax

*IF=10 mA.

LH1501, LH1511, LH15362A. LED Voltage vs. Temperature

1.6B. LED Dropout Voltage vs. Temperature

1.20IL = 100 mALED FORWARD VOLTAGE (V)LED FORWARD VOLTAGE (V)1.5IF = 50 mA1.41.31.2IF = 1 mA1.11.0IF = 2 mAIF = 5 mAIF = 10 mA–40–20020406080IF = 20 mA1.15TYP.1.10MIN.1.051.000.95–40–20020406080AMBIENT TEMPERATURE (°C)AMBIENT TEMPERATURE (°C)C. LED Current for Switch Turn-Off vs. Temperature

LED FORWARD CURRENT FOR SWITCHTURN-OFF (%) NORMALIZED TO 25 °CD. ON-Resistance vs. Temperature

50CHANGE IN ON-RESISTANCE (%)NORMALIZED TO 25°C100806040200–20–40–60–40–20020406080IL = 100 mALH1501, LH1511, LH1536403020100–10–20–30–40–40LH1501,LH1511,LH1536IL = 50 mA–20020406080AMBIENT TEMPERATURE (°C)AMBIENT TEMPERATURE (°C)E. Switch Capacitance vs. Applied Voltage

807060CAPACITANCE (pF)F. Output Isolation

100IF = 5 mATA = 25 °Cf = 1 MHzISOLATION (dB)8050403020100020A – LH1511B – LH15016040IF = 10 mAVP = 10 VRL = 50 Ω204060801000102103104105106107APPLIED VOLTAGE (V)FREQUENCY (Hz)LH1501, LH1511, LH15363G. Insertion Loss vs. Frequency

0.300.25INSERTION LOSS (dB)AH. Leakage Current vs. Applied Voltage @ 25°C

400OFF-STATE LEAKAGE CURRENT (nA)360320280240200160120804000LH1501, LH1511IF = 20 mARL = 600 Ω0.200.150.10A –LH1501B –LH1511C –LH1536BIF = 10 mAC0.050102IF = 5 mAIF = 2 mA10310410550100150200250300350FREQUENCY (Hz)LOAD VOLTAGE (V)I. Leakage Current vs. Applied Voltage @ 50°C

700J. Leakage Current vs. Applied Voltage @ 70°C

700OFF-STATE LEAKAGE CURRENT (nA)600500IF = 20 mA4003002001000IF = 10 mAIF = 5 mAIF = 2 mA050100150200250300350400OFF-STATE LEAKAGE CURRENT (nA)LH1501, LH1511LH1501, LH15116005004003002001000IF = 10 mAIF = 5 mAIF = 2 mAIF = 20 mA050100150200250300350400LOAD VOLTAGE (V)LOAD VOLTAGE (V)K. Leakage Current vs. Applied Voltage @ 85°C

700L. Switch Breakdown Voltage vs. Temperature

CHANGE IN BREAKDOWN VOLTAGE (%)NORMALIZED TO 25 °C86420–2–4–6–8–40–20020406080LH1501, LH1511,LH1536OFF-STATE LEAKAGE CURRENT (nA)LH1501, LH1511600500400IF = 20 mAIF = 10 mAIF = 5 mA3002001000IF = 2 mA050100150200250300350400LOAD VOLTAGE (V)AMBIENT TEMPERATURE (°C)LH1501, LH1511, LH15364M. Switch Offset Voltage vs. Temperature

3.5LH1501, LH1511,N. Turn-On/Off vs. Temperature

9080ton706050403020100–10–20A–30–40B–50–40–20IF = 5 mAIL = 50 mAtoffLH1501, LH1511SWITCH OFFSET VOLTAGE (µV)3.0LH15362.52.01.51.00.50CHANGE IN TURN-ON/OFF TIME (%)NORMALIZED TO 25 °CBAtoffLH15362030405060708090020406080AMBIENT TEMPERATURE (°C) AMBIENT TEMPERATURE (°C)O. Turn-On Time vs. LED Current

2.5IL = 50 mALH1501, LH1511–40 °CP. Turn-Off Time vs. LED Current

10IL = 50 mALH1501, LH15118TURN-OFF TIME (ms)TURN-ON TIME (ms)2.061.525 °C1.085 °C0.50102030405042–40 °C25 °C85 °C001020304050LED FORWARD CURRENT (mA)LED FORWARD CURRENT (mA)LH1501, LH1511, LH15365