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HSDL-3210 Datasheet(PDF) 6 Page - Agilent(Hewlett-Packard) |
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HSDL-3210 Datasheet(HTML) 6 Page - Agilent(Hewlett-Packard) |
6 / 20 page 6 Electrical and Optical Specifications Specifications hold over the recommended operating conditions unless otherwise noted. Unspecified test conditions may be anywhere in their operating range. All typical values are at 25 °C and 3.0 V unless otherwise noted. Parameter Symbol Min. Typ. Max. Units Conditions Notes Receiver RXD Output Voltage Logic High VOH IOVCC -0.2 IOVCC VIOH=-200 µA, EI ≤0.3 µW/cm2 Logic Low VOL 0 0.4 V IOL=200 µA8 Viewing Angle 2 φ1/2 30 ° Peak Sensitivity Wavelength λp 880 nm RXD Pulse Width (SIR) tPW (SIR) 1 7.5 µsCL =10 pF 8,9 RXD Pulse Width (MIR) tPW(MIR) 200 750 ns CL =10 pF 9 RXD Rise and Fall Times tR, tF 25 100 ns CL =10 pF Receiver Latency Time tL 25 50 µs10 Receiver Wake Up Time tRW 30 100 µs11 Transmitter Radiant Intensity (SIR) IEH 4 15 28.8 mW/Sr TA=25°C, θ1/2 ≤15°, TXD ≥ VIH Radiant Intensity (MIR) IEH 9 30 72 mW/Sr TA=25°C, θ1/2 ≤15°, TXD ≥ VIH Peak Wavelength λp 875 nm Spectral Line Half Width ∆λ1/2 35 nm Viewing Angle 2 φ1/2 30 60 ° Optical Pulse Width (SIR) tpw 1.41 1.6 2.23 µs tpw(TXD) = 1.6 µs Optical Pulse Width (MIR, IOVCC ≥1.5 V) tpw 148 217 260 ns tpw(TXD) = 217 ns Optical Rise and Fall Times (SIR) tr (EI) 50 600 ns tpw(TXD) = 1.6 µs tf (EI) Optical Rise and Fall Times (MIR) tr (EI) 30 40 ns tpw(TXD) = 1.6 µs tf (EI) LED Current On (SIR) IVLED 60 72 mA VVLED=VCC=3.6 V, VI(TXD) ≥ VIH On (MIR) IVLED 150 180 mA VVLED=VCC=3.6 V, VI(TXD) ≥ VIH Current Off IVLED 0.005 1 µsVVLED=VCC=3.6 V, VI(TXD) ≤ VIL Transceiver TXD Input Current High IH 10 200 nA VI ≥ VIH Low IL -10 -200 nA 0 ≤ VI ≤ VIL Supply Current Shutdown ICC1 0.01 µAVCC=3.6 V, VSD ≥ VCC - 0.5, TA=25°C Idle ICC2 300 450 µAVCC=3.6 V, VI(TXD) ≤ VIL,EI=0 Active, ICC3 0.8 3.0 mA VCC=3.6 V, VI(TXD) ≤ VIL 12,13 Receive Notes: 7. An in-band optical signal is a pulse/sequence where the peak wavelength, λp, is defined as 850 nm ≤ λp ≤ 900 nm, and the pulse characteristics are compliant with the IrDA Serial Infrared Physical Layer Link Specification. 8. For in band signals ≤ 1.152 Mbps where 9 µW/cm2 ≤ EI ≤ 500 mW/cm2. 9. For 0.576 Mbps ≤ in band signals ≤ 1.152 Mbps where 22.5 µW/cm2 ≤ EI ≤ 500 mW/cm2 . 10. Latency is defined as the time from the last TXD light output pulse until the receiver has recovered full sensitivity. 11. Receiver wake up time is measured from the SD pin high to low transition or VCC power on, to valid RXD output. 12. Typical values are at EI = 10 mW/cm2. 13. Maximum value is at EI = 500 mW/cm2. |
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