TFDS6401E, TFDS6402E, TFDS6500 Selling Leads, Datasheet
MFG:VISHAY
TFDS6401E, TFDS6402E, TFDS6500 Datasheet download
Part Number: TFDS6401E
MFG: VISHAY
Package Cooled:
D/C:
MFG:VISHAY
TFDS6401E, TFDS6402E, TFDS6500 Datasheet download
MFG: VISHAY
Package Cooled:
D/C:
Want to post a buying lead? If you are not a member yet, please select the specific/related part number first and then fill the quantity and your contact details in the "Request for Quotation Form" on the left, and then click "Send RFQ".Your buying lead can then be posted, and the reliable suppliers will quote via our online message system or other channels soon.
TOP
PDF/DataSheet Download
Datasheet: TFD312S
File Size: 54478 KB
Manufacturer: SANKEN [Sanken electric]
Download : Click here to Download
PDF/DataSheet Download
Datasheet: TFD312S
File Size: 54478 KB
Manufacturer: SANKEN [Sanken electric]
Download : Click here to Download
PDF/DataSheet Download
Datasheet: TFDS6500
File Size: 258421 KB
Manufacturer: Vishay
Download : Click here to Download
The TFDU6100, TFDS6500, and TFDT6500 are a family of lowpower infrared transceiver modules compliant to the IrDA 1.2 standard for fast infrared (FIR) data communication, supporting IrDA speeds up to 4.0 Mbit/s, HP-SIR, Sharp ASK and carrier based remote control modes up to 2 MHz. Integrated within the transceiver modules are a photo PIN diode, infrared emitter (IRED), and a lowpower CMOS control IC to provide a total frontend solution in a single package. Vishay Telefunken's FIR transceivers are available in three package options, including our Baby Face package (TFDU6100), the smallest FIR transceiver available on the market. This wide selection provides flexibility for a variety of applications and space constraints. The transceivers are capable of directly interfacing with a wide variety of I/O chips which perform the modulation/ demodulation function, including National Semiconductor's PC87338, PC87108 and PC87109, SMC's FDC37C669, FDC37N769 and CAM35C44, and Hitachi's SH3. At a minimum, a currentlimiting resistor in series with the infrared emitter and a VCC bypass capacitor are the only external components required to implement a complete solution.
Parameter | Test Conditions | Symbol | Min. | Typ. | Max. | Unit | Remarks |
Supply Voltage Range | VCC | 0.5 | 6 | V | |||
VCCP | 0.5 | 350 | V | ||||
Input Current | 10 | mA | All Input Pins | ||||
Output Sink Current | 25 | mA | See Vishay Telefunken IrDA Design Guide | ||||
Power Dissipation | Ptot | 200 | mW | <90 µs, ton<20% | |||
Junction Temperature | TJ | 125 | |||||
Ambient Temperature Range (Operating) |
Tamb | 25 | 85 | ||||
Storage Temperature Range | Tstg | 40 | 85 | ||||
Soldering Temperature | t = 20 s @215°C | 215 | 240 | ||||
Average IRED Current | IIRED(DC) | 125 | mA | ||||
Repetitive Pulsed IRED Current |
IIRED(RP) | 500 | mA | ||||
Transmitter Data Input Voltage |
VTxd | 0.5 | VCC+0.5 | V | |||
Receiver Data Output Voltage |
VRxd | 0.5 | VCC+0.5 | V | |||
Virtual source size (TFDS4402/ TFDU4102 only) |
Method: (11/e) encircled energy |
d | 3 | mm | |||
Virtual source size (TFDU4202 only) |
Method: (11/e) encircled energy |
2 | mm | ||||
Compatible to Class 1 operation of IEC 60825 or EN60825 with worst case IrDA SIR pulse pattern, 115.2 kbit/s |