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| TOSLINKTM Optical Transmission Device TOSLINKTM is a data transmission device which uses optical signals instead of electrical signals. Its principal features are as follows: Electromagnetic noise has no effect on the transmission line. The transmission line does not radiate any electromagnetic noise. The device is as easy to handle as like a digital IC, and connector assembly is easy. Comparison of TOSLINK and photocoupler The function ability of TOSLINK is similar to that of a photocoupler. A photocoupler has light-emitting and light-receiving devices in one package. It is used to transmit electrical signals in a circuit, for a very short distane. TOSLINK can be imagined as follows: separate the emitting device from the receiving device in the center of a photocoupler, then re-connect the two devices using a long optical fiber cable. Because optical fiber is used as the transmission line, it is possible to transmit signals over long distances while isolating them using TOSLINK. As a result, TOSLINK is also sometimes referred to as a long-distance photocoupler. VCC VCC Input Output (a)Photocoupler VCC VCC Input Optical fiber Output Optical transmitting module Optical receiving module (b)TOSLINK Comparison of TOSLINK and photocoupler Electrical and optical transmission system Electrical data transmission systems consist of the following devices: a line driver and line receiver to amplify electrical signals, a twisted-pair (or coaxial) cable as the transmission line and electrical connectors linking the line driver and line receiver to the electrical cable. By contrast, TOSLINK consist of the following devices: a transmitting module which converts electrical signals into optical ones, a receiving module which reconverts optical signals into electrical ones, optical fiber cable as the transmission line and optical connectors to link the transmitting and receiving modules to the optical fiber cable. In TOSLINK, a transmitting IC (LED driver) and LED are included in the transmitting module, and a receiving IC (waveform-reshaping circuit) and photodiode are included in the receiving module. The interface between transmitting and receiving ICs is at the transistor-transistor logic (TTL) or emitter coupled logic (ECL) levels. Because of this it is easy to make connections with the other circuits. Electrical input signal Line Driver Electrical connector Twisted pair or coaxial cable Electrical connector Electrical output signal Line Receiver (a) Data transmission by electrical wire Fiber-optic link Electrical input signal Optical fiber Transmitting Module Fiber-optic connector E/O converter Transmitting Circuit LED Photodiode Fiber-optic connector O/E converter Receiving Circuit Receiving Module Electrical output signal (b) Data transmission using fiber-optic cables Data transmission system Note: TOSLINK is a trademark of Toshiba Corp. Raytela is a trademark of Toray Industries Inc. Eska Premier is a trademark of Mitubishi Rayon Co. Ltd. Sumiguide is a trademark of Sumitomo Electronic Industries Ltd. 2 Optical fiber Cable Optical fiber cable consists of two parts. The center is called the core, the outer layer is called the cladding. The refractive index of the core is higher than that of the cladding. The effect of this arrangement is that when an optical ray is propagated at an angle to the axis of the cable, it is reflected back at the boundary between the core and the cladding, and thereby transmitted longitudinally through the core. There are three kinds of optical fiber: a) All-plastic fiber (APF) b) Plastic-cladding silica Fiber (PCF) c) Silica fiber APF is used for short-distance data transmission. Both the core and the cladding are made of plastic. PCF, which is used for middle distance transmission, has silica core and plastic cladding.Silica fiber is used for longdistance transmission. Both the core and the cladding are made of silica. Optical ray Sheathing Cladding (low refractive index for confinement of light) Core (high refractive index for transmission of light) Structure of optical fiber cable TOSLINK circuit configuration Optical transmission module The LED is driven by a differential circuit in the transmission module, making it possible to decrease current fluctuation when the LED is either on or off. For this reason, this module has no effect on other circuits around it. Transmitting IC LED Input 4 VCC 3 IF-CONT 2 GND 1 Block diagram of transmission module Optical receiving module An ATC (automatic threshold control) circuit is used to reshape the waveform in the receiving module. The ATC circuit controls the comparator reference voltage so that it is always automatically adjusted as the input optical power changes. For this reason there will be little pulse width distortion even when the length or degree of bending conditions of the optical fiber are changed. Receiving IC 4 GND2 Amp circuit Comparator 3 VCC 2 GND1 Reference voltage generating circuit ATC circuit 1 Output Block diagram of receiving module Construction of TOSLINK There are two package types available for TOSLINK's internal optical units. One is a molded resin package. It is used for ordinary applications. The other is ceramic, used for applications requiring exceptionally high reliability. The structure of the internal units of these two packages is shown in the figure on the right. In the case of the molded resin type, the devices are mounted on a lead frame and molded in with transparent resin. In the ceramic package the devices are mounted on a ceramic substrate, and hermetically sealed by a metal shell. The ceramic package features better resistance against humidity and temperature than the molded resin type. Bonding wire PD Receiving IC Metallic shell Capacitor Resin mold Capacitor Lead frame PD Receiving IC Lead frame Ceramic Substrate Bonding pad Molded resin package Ceramic package Structure of internal units 3 TOSLINK Device Categories TOSLINK devices can be classified as follows: TOSLINK Optical Modules General-Purpose Medium-Speed Data Transmission Ceramic Package Modules High-Speed Data Transmission Digital Audio Simplex Duplex Simplex Duplex Simplex Duplex Duplex Simplex (JIS F05) (JIS F07) (JIS F05) (JIS F07) (JIS F05) (JIS F07,PN) (SMI,PN) For APF/PCF For APF/PCF For APF/PCF For APF/PCF For APF/PCF For APF/PCF For APF (JEITA RC-5720 square style) For APF Fiber-Optic Connectors for Optical Fiber Cable Simplex (F05) Duplex (F07) Snap-in Clip Snap-in Clip For APF/PCF For APF/PCF For APF/PCF For APF/PCF Connectors for Optical Fiber Cable Simplex (F05) Duplex (F07) Snap-in Clip Snap-in Clip For APF/PCF For APF/PCF For APF For APF/PCF Optical Fiber Cables Simplex Duplex For APF/PCF For APF/PCF Adapters Simplex (F05) Duplex (F07) Note that the optical connectors (PN- and SMI-type) used for high-speed data transmission are not TOSLINK products, Use fiber optic connectors and optical fiber products from optical connector or optical fiber manufactures. Notes: (1) The relevant JIS standards are referred to as follows: F05: F05-type connector for optical fiber cables (JIS C 5974) F07: F01-type connector for optical fiber cables (JIS C 5976) 4 Application examples of TOSLINK TOSLINK is used in a wide variety of applications, such as digital audio and factory automation. Factory automation (FA) Digital audio Car audio and navigation system Office automation (OA) R L BX-G T BEAR 200-1 0008 548 Application examples of PC audio Mini Disk player Application example of 1394 optical and OFL. Personal computer Internet Sound Card Set top box Receiving module Digital VCR Transmitting module Receiving module Speaker System 1394 optical fiber link connection PDA OFL Digital TV DV camera Receiving module OFL 1394-compliant multi-camera shoot DVD/CD player Personal computer Transmitting module AV amp 5 Optical Modules for General-Purpose Use --4 --6 --8 --10 Received optical power (dBm) Ta = 25C,VCC = 5 V NRZ random pattern PCF :190series :170series --12 --14 --16 --18 --20 --22 --24 --26 --28 --30 --32 --34 --36 0.5 1 2 3 4 6 10 20 30 Data transmission rate (Mb/s) 50 100 PMIN PMIN PMAX PMAX TODX270 TODX296 PMAX: Maximum receivable power PMIN : Minimum receivable power Dynamic range of devices for general-purpose use There are two series in the TOSLINK family which are designed or general-purpose use. One is the TOSLINK 170 Series which was the first generation of TOSLINK. The other is the TOSLINK 190 Series, which is part of the new generation. The main technical features of modules for general-purpose use in the TOSLINK 190 Series are as follows: Data transmission rate:Up to 6 Mb/s or 8 Mb/s. Transmission distance: Up to 1000 m with PCF. Up to 40 m with APF. Wider dynamic range: 6 dB wider than the TOSLINK 170 Series. Constant external resistor value irrespective of transmission distance. There are two connector types, the F05 (simplex) and F07 (duplex), which are available for both the TOSLINK 170 and 190 Series devices. Application circuits Application circuits for the TOTX197 and TORX196, a pair of transmitting and receiving modules for general-purpose use, are shown in the figure on the right. For the TOTX197 transmission module, an external resistor is required to supply current to the LED. For the TORX196 receiving module, a noise filter must be placed on the power line. The module case is made of conductive resin in order to have a shielding effect against noise. All case pins must be securely grounded. There are also duplex modules in the general-purpose TOSLINK series devices, but application circuits for these are generally the same as for simplex modules. Interfaces in these modules are all at the transistor-transistor logic (TTL) level; hence it is easy to connect them with other circuits. Fiber-optic connector insertion side Soldered to PC board Optical 5 Transmitting Module 6 Fiber-optic connector insertion side Optical Soldered to PC board GND 4 3 2 1 5 Receiving Module 6 4321 0.1 F 47 H Output GND VCC (View from below) GND 4.3 k Input VCC GND (View from below) TOTX197 TORX196 Application circuits for TOTX197 and TORX196 devices Receiving module with analog output for an optical flux monitor (TORX198 and TODX298) The general-purpose modules described above provide digital output. In addition there is also one receiving module (TORX198) with an analog output for amplifier. The analog output voltage (output voltage of the amplifier in the receiving circuit) depends on the optical power input into the receiving module. Hence, it is possible to measure optical flux without an optical power meter, by monitoring this analog output terminal. When an optical flux-monitoring function is not required, this receiving module is used for digital data transmission, like the other TOSLINK receiving modules. In this case this analog output pin should be kept open. There is also the optical module product having flux-monitoring functions such the duplex type TODX298 (for PCF cables). Pin-PD GND Amplifier Voltage Generator GND Comparator 4 GND 3 VCC 2 Analog output 1 Digital output ATC circut Analog output voltage (V) GND 5 Ta = 25C, VCC = 5 V 4 With APF 3 2 1 0 -- 30 -- 28 -- 26 -- 24 -- 22 -- 20 -- 18 -- 16 -- 14 Received optical power (dBm) -- 12 -- 10 -- 8 Receiving module with analog output for optical flux monitoring 6 Ceramic-Package Modules The TOSLINK product line includes several ceramic-package modules, which have higher reliability levels than modules in molded-resin packages. In these modules the LED, photodiode, transmission IC, receiving IC and chip capacitors are all mounted on a ceramic substrate and hermetically sealed in metal shells. These ceramic-package modules are used in applications requiring high levels of reliability. Structure of a ceramic-package module (transceiving unit) The optical transceiving units used in optical modules have the following structure as shown in the figure on the right. The LED, the transmitting IC which drives the LED and the chip capacitor are mounted on a ceramic substrate. In this particular unit the photodiode, the receiving IC (which features a waveform-reshaping function) and the chip capacitors are also mounted on the same ceramic substrate. These devices are hermetically sealed in metal shells with glass windows. Ceramic substrate Bonding pad Transmission IC LED Capacitor Photodetector Receiving IC Glass window Lead pin Metal shell Structure of ceramic-package transceiver unit Ceramic-package transceiving module (TODX283) TODX283 - high-speed optical module compatible with PN-type connectors The TODX283 is a ceramic-package transceiving module which can be used with either an APF (all-plastic fiber) or a PCF (plastic-cladding silica-fiber) cable. Just like a general-purpose optical module, this product incorporates a transmitting IC which drives an LED, and an on-chip receiving IC with a waveform-reshaping function. It is easy to connect this module to peripheral circuits, since its input and output are both TTL-level. This module is compatible with PN-type connectors and JIS F7-type fiberoptic connectors. Main Specifications of the TODX283 Data rate: DC to 50 Mb/s (NRZ code) Transmission distance: 10 m (max) (via APF cable) 100 m (max) (via PCF cable) Pulse width distortion: less than 7 ns Center wavelength: 650nm Operating temperature: -10C to 70C TTL interface External appearance of optical tranceiving module TODX283 7 Optical Modules for High-Speed Data Transmission Optical modules for high-speed data transmission support two types of optical connectors, small multimedia interface (SMI) and premises network (PN). The SMI optical connector is designed for use in digital home appliances and enables bi-directional (duplex) optical communication with its size as small as the simplex optical connector used for home digital audio equipment. The PN optical connector is the modification of JIS F07 optical connector which has achieved success in industry application. P New rod uct s Optical Tranceiving Module with SMI Connector (TODX2402) The TODX2402 optical tranceiving module is an optical transceiver used with the SMI connector which is designed for use in digital home appliances. Since it can communicate at a data rate of 250 Mb/s, it is possible to transmit Fast Ethernet signals (125 Mb/s) as well as IEEE1394 S100 signals (125 Mb/s) and S200 signals (250 Mb/s). Main specification of the TODX2402 Data rate: 20 Mb/s to 250 Mb/s (NRZ code) Transmission distance: 20 m (max) (at 250 Mb/s) 50 m (max) (at 125 Mb/s) Center wavelength: 650 nm Operating temperature: 0C to 60C (at 250 Mb/s) -10C to 70C (at 125 Mb/s) On-chip transmitting and receiving IC PECL interface Supply voltage: 3.3 V 0.3 V Molded resin package er t Undpmen lo eve External appearance of optical tranceiving module TODX2402 d Optical Tranceiving Module with PN Connector (TODX2801) The TODX2801 optical tranceiving module is housed in a ceramic package which can be used with plastic optical fiber (APF) and plastic clad silica optical fiber (PCF). It can be used to transmit Fast Ethernet signals (125 Mb/s) as well as IEEE1394 S100 signal (125 Mb/s ) over longer distance with the PN optical connector or the JIS F07 optical connector. Main specification of the TODX2801 Data rate: 20 Mb/s to 125 Mb/s (NRZ code) Transmission distance: 20 m (max) (via APF cable) 100 m (max) (via GI-PCH cable) Center wavelength: 650 nm Operating temperature: -10C to 70C PECL interface Supply voltage: 3.3 V 0.3 V Ceramic package External appearance of optical tranceiving module TODX2801 8 Since the TODX2801 is currently under development, its specification is subject to change without notice. Optical Fiberless Modules Optical fiberless modules are used for high-speed data transmission and do not require optical fiber cables; hence, they are called optical fiberless (OFL) modules. Just like TOSLINK devices (which do require optical-fiber cables), these devices incorporate an on-chip transmission IC which drives an LED, and an on-chip receiving IC with a waveform-reshaping function. As a result, it is easy to connect OFL modules to peripheral ICs. P New rod uct s Optical fiberless modules (TOTX1500 and TORX1500) Main Specifications of the TOTX1500 and TORX1500 Data rate: 20 to 125 Mb/s (NRZ code) Transmission distance: 3 cm (max) Center wavelength: 870 nm Operating temperature: 0C to 60C On-chip transmitting and receiving IC Supply voltage: 3.3 V 0.3 V PECL interface External appearances of optical fiberless modules TOTX1500 and TORX1500 TOTX1500 TORX1500 OFL application The use of TOTX1500 and TORX1500 OFL modules in notebook PCs, DV cameras and high-performance PDAs enables high-speed data transmission between devices. High-end laptop DV camera OFL TV OFL DV station Docking station Optical fiberless communications Optical fiberless communications Notebook PC OFL PDA OFL Docking cradle Interface station Connection to PC Optical fiberless communications Optical fiberless communications 9 Optical Modules for Digital Audio The digital audio TOSLINK is an optical module capable of transferring digital audio interface signals. The interface level and fiber-optic connector configuration conform to the JEITA standards CP-1201 and RC-5720 respectively. This module is therefore ideal for use in a wide variety of fields ranging from audio equipment such as CD, MD and DVD players to sound applications for personal computers and computer entertainment systems. The digital audio TOSLINK comes in a standard package (panel mount type), a medium-sized package (for PC sound cards) and a mini-package (for portable devices). Choose the package which is most suitable for your application. Standard package Medium-sized package Mini-package Optical module packages for digital audio Connection method The diagram shows the TOTX179 and TORX179 optical module connections for general audio applications. Please connect a bypass capacitor to the optical transmitting module TOTX179 and a capacitor and inductor noise filter to the optical receiving module TORX179. Since the optical transmitting module TORX179 incorporates a resistor for supplying current to the LED driver, no external resistors are required. Products with different packages, such as the TOTX179S and the TORX179P, can also be connected and used in the same way. TOTX179 Fiber-optic connector jack TORX179 Fiber optic connector inserted here Optical Transmitting Module Optical Receiving Module 3 2 1 Loss than 7 mm 0.1 F 3 C 2 1 L C: 0.1 F (multi-layer ceramic capacitor) L: 47 H GND Output Input VCC GND VCC (View from below) (View from below) How to connect the TOTX179/TORX179 duc ts Ne ro wP Optical Modules with Shutter TOTX141L, TOTX141PL, TORX141L, and TORX141PL The TOTX141L is a panel mount optical transmission module with shutter, which can operate at a data rate of up to 15 Mb/s. Also, the TOTX141PL is an optical transmission module with shutter, which can operate at a data rate of up to 15 Mb/s. It is housed in a mini package. The TORX141L is a panel mount optical receiving module with shutter, is an optical receiving module with shutter, which can operate at a data rate of up to 15 Mb/s. It is housed in a mini package. The TOTX141L, TOTX141PL, TORX141L and TORX141PL can operate at 3-V supply voltage. Operating at a data rate of 15 Mb/s allows the modules to be used in digital audio equipment such as DVD players, which uses a sampling frequency of 96 kHz, as well as the conventional audio application, such as CD players and mini disc players. Since these modules conform to the JEITA digital audio interface standard, they can be combined with existing digital audio TOSLINK products. Toshiba also provides the optical transmission modules TOTX179L and TOTX179PL, and the optical receiving modules TORX179L and TORX179PL. These modules operate at 5-V supply voltage. TOTX141L TORX141PL TOTX141L TORX141PL External appearances of TOTX141L/141PL and TORX141L/141PL 10 Optical Fiber Cables with Fiber-Optic Connectors The TOSLINK product line includes are optical-fiber cables with fiber-optic connectors which conform to JIS F05 and JIS F07 standards. The meaning of a product number is as follows: TOCP - B Unit of length: C = cm, M = m Length of optical fiber Optical fiber cable type None: APF (standard) P: APF (reinforced) Q: PCF (standard) X: PCF (reinforced) Assembly method 0: Adhesion and polishing (for APF/PCF) 5: Simple assembly (for APF) Locking method 0: Clip 5: Snap-in Cable type 1: Simplex 2: Duplex Sample product numbers TOCP100X-100MB Cable type: Simplex Locking method: Clip Assembly method: Adhesion and polishing Cable type: PCF (reinforced) Length of cable: 100 m TOCP255-50CB Cable type: Duplex Locking method: Snap-in Assembly method: Simple assembly Cable type: APF (standard) Length of cable: 50 cm 11 Optical Module Product Line 1. Optical Modules for General-Purpose Use (simplex) Transmitting Module Data Appropriate Transmission Pulse Width Power Supply Operating Receiving Wavelength Distance Distortion Rate Voltage Temperature Optical Fiber Cable Appropriate Optical Fiber Cable Module with Fiber-Optic Connectors (nm) (Mb/s, NRZ) (m) (ns) (1) (m) (1) (V) (C) TOTX196 TORX196 DC to 6 800 Up to 1000 55 Up to 800 5 0.25 - 40 to 85 PCF (200/300) TOCP100Q- B/TOCP100X- B H-PCF (200/230) CF-1071 Series(4) PCF (200/300) 55 5 0.25 - 40 to 85 H-PCF (200/230) CF-1071 Series(4) PCF (200/300) 55 5 0.25 - 40 to 70 H-PCF (200/230) CF-1071 Series(4) TOCP100TOCP155B/TOCP100PB/TOCP155PB/TOCP100PB/TOCP155PB/TOCP100PB/TOCP155PB B B B B B TOCP100QB/TOCP100XB TOCP100QB/TOCP100XB TOTX196 TORX198 (2) DC to 6 800 Up to 1000 Up to 800 TOTX170 (3) TORX170 DC to 6 800 Up to 1000 Up to 800 TOTX197 TORX196 DC to 6 670 Up to 40 55 5 0.25 - 40 to 85 APF (980/1000) TOTX197 TORX198 (2) DC to 6 670 Up to 40 55 5 0.25 - 40 to 85 APF (980/1000) TOCP100TOCP155- TOTX170A (3) TORX170 DC to 6 650 Up to 40 55 5 0.25 - 40 to 70 APF (980/1000) TOCP100TOCP155Notes : (1) Value for operation at Ta = 25C, VCC = 5 V (2) Optical receiving module with analog output pin used for optical flux monitoring (3) It is necessary to change the external resistor value according to the transmission distance. (4) CF-1071 Series is manufactured of Sumitomo Electronic Industries Ltd. 2. Optical Modules for General-Purpose Use (duplex) Transceiving Module Transmission Pulse Width Power Supply Operating Appropriate Data Wavelength Distance Distortion Voltage Temperature Optical Fiber Cable Appropriate Optical Fiber Cable Rate with Fiber-Optic Connectors (nm) (ns) (1) (m) (1) (Mb/s, NRZ) (V) (C) (m) TODX296 DC to 6 800 Up to 1000 55 Up to 800 5 0.25 - 40 to 85 PCF (200/300) TOCP200Q- B/TOCP200X- B H-PCF (200/230) CF-2071 Series(5) PCF (200/300) 42 5 0.25 - 40 to 85 H-PCF (200/230) CF-2071 Series(5) PCF (200/300) 55 5 0.25 - 40 to 70 H-PCF (200/230) CF-2071 Series(5) TOCP200TOCP255B/TOCP200PB/TOCP255PB/TOCP200PB/TOCP255PB B B B TOCP200QB/TOCP200XB TOCP200QB/TOCP200XB TODX298 (2) Up to 1000 DC to 8 800 Up to 700 TODX270 (3) DC to 6 800 Up to 1000 Up to 800 TODX297 DC to 6 670 Up to 40 55 5 0.25 - 40 to 85 APF (980/1000) TODX270A (3) DC to 6 650 Up to 40 55 5 0.25 - 40 to 70 APF (980/1000) TOCP200TOCP255- Notes : (1) Value for operation at Ta = 25C, VCC = 5 V (2) Optical receiving module with analog output pin used for optical flux monitoring (3) It is necessary to change the external resistor value according to the transmission distance. (5) CF-2071 Series is manufactured of Sumitomo Electronic Industries Ltd. 12 3. Optical Modules for Medium-Speed Data Transmission (simplex) Transmitting Module Receiving Module Data Transmission Pulse Width Power Supply Operating Appropriate Wavelength Distance Rate Distortion Voltage Temperature Optical Fiber Cable Appropriate Optical Fiber Cable with Fiber-Optic Connectors (nm) (Mb/s, NRZ) (ns) (1) (m) (1) (V) (C) (m) TOTX194 (3) TORX194 DC to 10 800 Up to 1000 30 Up to 700 5 0.25 - 40 to 85 PCF (200/300) TOCP100Q- B/TOCP100X- B H-PCF (200/230) CF-1071 Series(4) TOCP100TOCP155B/TOCP100PB/TOCP155PB B TOTX195 (3) TORX194 DC to 10 670 Up to 50 30 5 0.25 - 40 to 85 APF (980/1000) Notes : (1) Value for operation at Ta = 25C, VCC = 5 V (3) It is necessary to change the external resistor value according to the transmission distance. (4) CF-1071 Series is manufactured of Sumitomo Electronic Industries Ltd. 4. Optical Modules for Medium-Speed Data Transmission (duplex) Transceiving Module Appropriate Data Transmission Pulse Width Power Supply Operating Wavelength Distance Distortion Rate Voltage Temperature Optical Fiber Cable Appropriate Optical Fiber Cable with Fiber-Optic Connectors (nm) (m) (m) (1) (Mb/s, NRZ) (V) (C) (ns) (1) TODX294 (3) DC to 10 800 Up to 1000 30 Up to 700 5 0.25 - 40 to 85 PCF (200/300) TOCP200Q- B/TOCP200X- B H-PCF (200/230) CF-2071 Series(5) TOCP200TOCP255B/TOCP200PB/TOCP255PB B TODX295 (3) DC to 10 670 Up to 50 30 5 0.25 - 40 to 85 APF (980/1000) Notes : (1) Value for operation at Ta = 25C, VCC = 5 V (3) It is necessary to change the external resistor value according to the transmission distance. (5) CF-2071 Series is manufactured of Sumitomo Electronic Industries Ltd. 5. Ceramic Package Modules (simplex) Transmitting Module Receiving Module Data Transmission Pulse Width Power Supply Operating Appropriate Rate Wavelength Distance Distortion Voltage Temperature Optical Fiber Cable Appropriate Optical Fiber Cable with Fiber-Optic Connectors (Mb/s, NRZ) (nm) (ns) (1) (m) (1) (V) (C) (m) TOTX180 TORX186 DC to 8 800 Up to 1000 42 Up to 800 5 0.25 - 40 to 85 PCF (200/300) TOCP100Q- B/TOCP100X- B H-PCF (200/230) CF-1071 Series(4) PCF (200/300) 55 5 0.25 - 40 to 85 H-PCF (200/230) CF-1071 Series(4) TOCP100TOCP155B/TOCP100PB/TOCP155PB B TOCP100QB/TOCP100XB TOTX180 (3) TORX180 (3) Up to 1000 DC to 6 800 Up to 800 TOTX180A (3) TORX180 (3) DC to 6 650 Up to 40 55 5 0.25 - 40 to 85 APF (980/1000) Notes : (1) Value for operation at Ta = 25C, VCC = 5 V (3) It is necessary to change the external resistor value according to the transmission distance. (4) CF-1071 Series is manufactured of Sumitomo Electronic Industries Ltd. 13 Optical Module Product Line 6. Ceramic Package Modules (duplex) Transceiving Module Transmission Pulse Width Power Supply Operating Appropriate Data Wavelength Distance Distortion Voltage Temperature Optical Fiber Cable Appropriate Optical Fiber Cable Rate with Fiber-Optic Connectors (nm) (V) (ns) (1) (m) (1) (C) (m) (Mb/s, NRZ) TODX286 DC to 8 800 Up to 1000 42 Up to 800 5 0.25 - 40 to 85 PCF (200/300) TOCP200Q- B/TOCP200X- B H-PCF (200/230) CF-2071 Series(5) PCF (200/300) 55 5 0.25 - 40 to 85 H-PCF (200/230) CF-2071 Series(5) TOCP200TOCP255B/TOCP200PB/TOCP255PB B TOCP200QB/TOCP200XB TODX280 (3) DC to 6 800 Up to 1000 Up to 800 TODX280A (3) DC to 6 650 Up to 40 55 5 0.25 - 40 to 85 APF (980/1000) TODX283 DC to 50 650 Up to 10 (APF) Up to 100 (PCF) 7 5 0.25 APF (980/1000) PN fiber-optic cable connectors TOCP200- MB/TOCP200P- MB - 10 to 70 TOCP255- MB/TOCP255P- MB PCF (200/300) TOCP200Q- MB/TOCP200X- MB Notes : (1) Value for operation at Ta = 25C, VCC = 5 V (3) It is necessary to change the external resistor value according to the transmission distance. (5) CF-2071 Series is manufactured of Sumitomo Electronic Industries Ltd. 7. Optical-Fiber Modules for High-Speed Data Transmission (duplex) Transceiving Module Data Rate (Mb/s, NRZ) Wavelength (nm) (6) Transmission Distance (m) (6) Power Supply Voltage (V) Operating Temperature (C) Appropriate Optical Fiber Cable (m) Appropriate Optical Fiber Cable with Fiber-Optic Connectors TODX2402 New product Up to 20(250M) 20 to 250M 650 Up to 50(125M) 0 to 60 3.3 0.3 -10 to 70 APF (980/1000) 3.3 0.3 -10 to 70 GI-PCF (200/230) PN fiber-optic cable connectors TOCP200- B,TOCP200P- B APF (980/1000) SMI fiber-optic cable connectors TODX2801 (7) (8) Under development Up to 20(APF) 20 to 125M 650 Up to 100(GI-PCF) Notes : (6) Value for operation at Ta = 25C, VCC = 3.3 V. (7) Technical specifications given in this table may differ from those on the product data sheet. (8) Ceramic Package Product. (9) GI-PCF is manufactured of Sumitomo Electronic Industries Ltd. 8. Optical Fiber-Less Modules Transmitting Module Receiving Moduled Data Rate (Mb/s, NRZ) Wavelength (nm) (6) Transmission Distance (cm) (6) Power Supply Voltage (V) Operating Temperature (C) TOTX1500 TORX1500 20 to 125M 870 Up to 3 3.3 0.3 0 to 60 Note : (6) Value for operation at Ta = 25C, VCC = 3.3 V. 14 9. Optical Modules for Digital Audio (simplex) Transmitting Module Receiving Module Operating Appropriate Data Rate Wavelength Transmission Pulse Width Power Supply Temperature Optical Fiber Cable Appropriate Optical Fiber Cable Distance Distortion Voltage (Mb/s, NRZ) with Fiber-Optic Connectors (nm) (m) (10) (ns) (10) (C) (V) (m) TOTX178A TORX178B 0.1 to 6M 660 Up to 5 30 30 5 0.25 5 0.25 - 20 to 70 TOTX178S TORX178S 0.1 to 6M 660 Up to 5 - 20 to 70 TOTX179 TORX179 0.1 to 12.8M 650 Up to 5 25 25 5 0.25 5 0.25 - 20 to 70 TOTX179L New product TORX179L New product 0.1 to 12.8M 650 Up to 5 - 20 to 70 TOTX179P TORX179P 0.1 to 12.8M 650 Up to 5 25 25 5 0.25 5 0.25 - 20 to 70 APF(970/1000) APF(980/1000) TOTX179PL New product TORX179PL New product 0.1 to 12.8M 650 Up to 5 - 20 to 70 TOCP172- B TOTX179S TORX179S 0.1 to 12.8M 650 Up to 10 25 5 0.25 - 20 to 70 TOTX141 TORX141 0.1 to 15M 650 Up to 10 20 20 20 20 25 2.7 to 3.6 - 20 to 70 TOTX141L New product TORX141L New product 0.1 to 15M 650 Up to 10 2.7 to 3.6 - 20 to 70 TOTX141P TORX141P 0.1 to 15M 650 Up to 10 2.7 to 3.6 - 20 to 70 TOTX141PL New product TORX141PL New product 0.1 to 15M 650 Up to 10 2.7 to 3.6 - 20 to 70 TOTX193 TORX193 DC to 6M 660 Up to 10 5 0.25 - 40 to 85 APF(980/1000) Audio DNP Connector TOTX193K TORX193K DC to 6M 660 Up to 10 25 5 0.25 - 40 to 85 Notes : (10) Value for operation at Ta = 25C, VCC = 5.0V or VCC = 3.0V (11) Audio DNP Connector is manufactured of Tyco Electronics AMP K. K. Adapter Product List 1. Simplex Product Number TOCA100 2.0 - 20 to 70 TOCP100*100P TOCP100Q*100Q TOCP150Q*150X TOCA150 3.5 - 20 to 70 TOCP100*100P TOCP155*155P TOCA250 3.5 - 20 to 70 TOCP200*200P TOCP255*255P Operating Max Transmission Temperature (C) Loss (dB) (1) Appropriate FiberOptic Connector 2. Duplex Product Number TOCA200 2.0 - 20 to 70 TOCP200*200P TOCP200Q*200X Operating Max Transmission Temperature (C) Loss (dB) (1) Appropriate FiberOptic Connector 15 Product Line of Optical Fiber Cables with Fiber Optic Connectors 1. F05-Type (simplex) Appearance Product Number Lock Type Connector Product Number Appropriate Optical Fiber Cable (diameter of core & cladding, m) Optical Fiber Cable Product Number TOCP100TOCP100PTOCP155TOCP155PTOCP100QTOCP100XTOCP150QTOCP150X- B Clip TOCP100K TOCP100PK TOCP155K Snap-in TOCP155PK TOCP100QK Clip TOCP100XK TOCP150QK Snap-in TOCP150XK PCF (200/300) APF (980/1000) TOFC100TOFC100PTOFC100TOFC100PTOFC100QTOFC100XTOFC100QTOFC100X- B B B B B B B 2. F07-Type (duplex) Appearance Product Number Lock Type Connector Product Number Appropriate Optical Fiber Cable (diameter of core & cladding, m) Optical Fiber Cable Product Number TOCP200TOCP200PTOCP255TOCP255PTOCP200QTOCP200X- B Clip TOCP200K TOCP200PK TOCP255K Snap-in TOCP255PK TOCP200QK Clip TOCP200XK PCF (200/300) APF (980/1000) TOFC200TOFC200PTOFC200TOFC200PTOFC200QTOFC200X- B B B B B Note: P-type and X-type are reinforced cable. 3. For Digital Audio Use (simplex) Appearance Product Number Lock Type Connector Product Number Appropriate Optical Fiber Cable (diameter of core & cladding, m) Optical Fiber Cable Product Number TOCP172- B Snap-in -- APF (970/1000) -- Note: Available in assembled form only. Not available as connector parts for digital audio use. 16 Fiber Optic Connectors Product List 1. F05 (simplex) Product Number TOCP100K TOCP100PK TOCP155K TOCP155PK TOCP100QK TOCP100XK TOCP150QK TOCP150XK Plug Case VJA7076 VJA7076 VJA7091 VJA7091 VJA7076 VJA7076 VJA7079 VJA7079 Ferrule VJM7066 VJM7066 -- -- VJM7063 VJM7063 VJM7063 VJM7063 Collar -- -- -- -- -- -- -- -- Spring VJM7069 VJM7069 -- -- VJM7069 VJM7069 VJM7069 VJM7069 Plug Cap VJA7083 VJA7083 -- -- VJA7082 VJA7082 VJA7082 VJA7082 Cable Bushing -- -- -- -- VJA7084 VJA7084 VJA7084 VJA7084 Protective Cap VJA7115 VJA7115 VJA7115 VJA7115 VJA7115 VJA7115 VJA7115 VJA7115 Protective Sleeve -- VJA7133 -- VJA7133 -- VJA7131 -- VJA7131 2. F07 (duplex) Product Number TOCP200K TOCP200PK TOCP255K TOCP255PK TOCP200QK TOCP200XK Plug Case VJA7085 VJA7085 VJA7092 VJA7092 VJA7085 VJA7085 Ferrule VJM7066 VJM7066 -- -- VJM7063 VJM7063 Collar -- -- -- -- -- -- Spring VJM7069 VJM7069 -- -- VJM7069 VJM7069 Plug Cap VJA7088 VJA7088 -- -- VJA7088 VJA7088 Cable Bushing VJA7090 VJA7090 -- -- VJA7090 VJA7090 Protective Cap VJA7115 VJA7115 VJA7115 VJA7115 VJA7115 VJA7115 Protective Sleeve -- VJA7134 -- VJA7134 -- VJA7132 Note: F07 connectors (duplex) require two ferrules, two springs and two protective caps. 17 Precautions for Use of TOSLINK (1) Reliability In an optical module that has been in use for some time, nearly all of the deterioration in characteristics is due to a reduction in the fiber-output power (Pf). This is due to deterioration over time in the level of optical output of the LED used as the light source. The drop in the LED's optical output is thought to be caused by crystal flaws in the wafer or stress in the mold resin, although the detailed causes are not clear. Although LEDs used for optical communications are generally considered to have an almost infinite lifetime, their optical output does fall over time. The life of light-emitting devices is greatly affected by the operating conditions and operating environment as well as by the lifespan characteristics of the particular device.Toshiba recommends that the user first check a device's lifetime characteristics before selecting it and setting its operating conditions. For information on reliability, contact a Toshiba sales office. Regular maintenance, such as a check on the amount of light emitted is recommended. In the case of the red LEDs used in the TOTX195 and TODX297, for example, a light-absorbing layer may form on the surface of the LED as the aluminum in the liquid crystal oxidizes, causing the optical output to fall. Since this tendency is pronounced in high-humidity environments, it is recommended that products containing red LEDs not be used in such environments. For highhumidity environments or applications requiring a long lifespan, Toshiba recommends a TOSLINK ceramic-package optical module. (2) Soldering Optical modules use semiconductor devices but are essentially optical components. When soldering, ensure that flux does not adhere to the light-emitting or light-receiving surfaces. Take the same care when cleaning off flux after soldering. Some optical modules include a protective cap. This cap is intended to prevent accidental operation when the module is not in use. It is not dust- or waterproof. Because the optical module is an optical component, Toshiba does not recommends soldering methods or post-solder flux cleaning methods in case where flux could affect the module. Toshiba recommends first soldering without mounting the module, then cleaning the PCB. The module should then be hand-soldered and no subsequent cleaning should be performed. If it is not possible to hand-solder the module, one way of avoiding the effect sof flux is to use non-halogen (chlorine-free) flux, taking care not to leave chlorine or other residue, and omitting the post-solder cleaning. In such cases too, the reliability of the device must be checked. Be sure to check the reliability of the device. (3) Noise Resistance The case for the TOSLINK (simplex) optical receiving module and (duplex) optical transceiver module is made of conductive plastic. The case is designed to provide shielding when the reinforced pin at the front of the module is grounded. When the module is used, this pin should be connected SIGNAL-GND. Since the case for the optical receiving module and optical transceiver module has a resistance of several tens of ohms, ensure that the case does not touch the power line or any other circuits. Generally, the use of optical transmission devices is considered to improve noise resistance. While optical fibers are certainly not affected by noise, optical modules, particularly receiver modules, are comparatively easily affected by noise because they handle such minute current signals. To improve noise resistance, the TOSLINK case is treated to make it conductive. However, since the signal output from the optical receiving modules photodiode is a minute current signal, in some environments simply shielding the case will not protect against noise. When using a TOSLINK device, conduct live tests to check noise resistance. A simple noise filter is mandatory for the power lines for the TOSLINK optical receiving module and optical transceiver module. However, in the case of significant power supply ripples, further filter reinforcement is also necessary. In addition, when the optical module is placed in a location susceptible to emission noise, Toshiba recommends covering the optical module and power supply filter with a metal cover to enhance the shielding. (4) Protective Cap When the optical module is not in use, cover it with the protective cap. Take particular care with the optical receiving module since, depending on the circuit used, extraneous light may be input to the module when the TOSLINK device is not in use and may adversely affect other circuits. (5) Vibration, Shock and Stress Plastic-molded optical modules are plastic-sealed devices whose wires are fixed with resin. While this structure makes them comparatively resistant to vibration and shock, wire breakage has been observed in equipment in which the module is used when the soldering and connections are exposed to vibration, shock or stress. Therefore, when using a plastic-molded optical module in equipment with high vibration levels, ensure that the structure is designed to withstand vibration, shock and stress. Ceramic-package optical modules are ceramic-sealed, with a hollow interior. Since the wires in the module are not fixed, the module is susceptible to vibration and shock. Therefore, when using a ceramic-package optical module in equipment which is subject to high levels of vibration and shock, ensure that the structure of the equipment is designed to withstand vibration, shock and stress. 18 (6) Supply Voltage Modules should be used with a supply voltage within the standard operating conditions. Ensure that the supply voltage does not exceed the absolute maximum rating even momentarily. (7) Input Voltage If a voltage exceeding the absolute maximum rating is applied to the transmitter input, the internal IC may be adversely affected or destroyed. If there is a possibility of excessive input voltage due to a surge, for example, add a protector circuit to the input. (8) Output Note that internal ICs can be damaged when the receiver output is low and the output is shorted to the power supply, or when output is high and is shorted to GND. (9) Handling Optical Fiber Cables Do not drop heavy or sharp metal objects onto the optical fiber cable. If the fiber cable breaks, data cannot be transmitted. Also, transmission loss increases with sharp bends in the fiber cable. Toshiba recommend that, if the cable must be bent during installation, the bent section should have as large a radius as possible (six to ten times the minimum bending radius). Some fiber-optic connectors are vertical connectors. When inserting a fiber-optic connector, note the directionality of the connection. When coupling or decoupling a fiber optic connector, be sure to hold the connector itself. Do not decouple a fiberoptic connector by pulling on the optical-fiber cord. (10) Assembling Fiber-Optic Connectors Since specialized assembly tools are available for the fiber-optic connectors used with TOSLINK devices, people without specialist knowledge can assemble the connectors. However, the person who assembled the product is responsible for its characteristics and quality. When a connector is to be used in an application where reliability is essential,Toshiba recommends purchasing a preassembled product or contacting a specialist with the necessary expertise. (11) Absolute Maximum Ratings The absolute maximum ratings must never be exceeded, even momentarily. Even a single rating value must never be exceeded. The nature of the absolute maximum ratings depend on the product but generally include such parameters as the input and output currents, input voltage, storage temperature, operating temperature and lead temperature. If the input current or voltage exceeds the absolute maximum rating value, overvoltage and overcurrent can adversely affect the internal circuitry of the device. If the rating is grossly exceeded, the wiring may fuse due to heating in the internal circuits, or the circuitry in the semiconductor chips may be destroyed. If, for example, the absolute maximum operating temperature, storage temperature or soldering temperature rating is exceeded, the differences in the coefficients of thermal expansion of the various materials that make up the device can damage the sealing or open up bonded parts. When using TOSLINK devices, never exceed any of the absolute maximum ratings. (12) Recommended Operating Conditions The recommended operating conditions are conditions recommended to ensure the operation described in the individual datasheets. To improve the reliability of a device even further, use the device with a derated maximum voltage, current, temperature or other parameter. Note that the recommended operating conditions are intended to guarantee the stated operation and do not always guarantee characteristic values. (13) Smoke and Fire Since optical modules, connectors and fiber cables are flammable, scorching or burning them may cause them to emit smoke or burst into flame, which can in turn cause gas emissions. Therefore, do not use these devices in the vicinity of flames, smoke or any flammable materials. (14) Disposal Precautions TOSLINK devices and packaging materials must be disposed of by the user as industrial waste products in an environmentally appropriate way and in accordance with the law. (15) Application Precautions While Toshiba strives to improve the quality and reliability of their products, semiconductor products in general can malfunction or break down. When using a Toshiba semiconductor product, it is the purchaser's responsibility to design safe equipment which does not cause loss of life, injury or damage to property. When incorporating a Toshiba device into a product, check the latest product specifications of the Toshiba device and ensure that all parameters remain within the absolute maximum ratings and recommended operating condition ranges. In addition, follow the stipulations in Precautions for Handling Toshiba Semiconductor Products and the Toshiba Semiconductor Reliability Handbook, with regard to the precautions and conditions described in those document. 19 OVERSEAS SUBSIDIARIES AND AFFILIATES Toshiba America Electronic Components, Inc. Headquarters-Irvine, CA 9775 Toledo Way, Irvine, CA 92618, U.S.A. Tel: (949)455-2000 Fax: (949)859-3963 020617 (G) Toshiba Electronics Europe GmbH Dusseldorf Head Office Hansaallee 181, D-40549 Dusseldorf, Germany Tel: (0211)5296-0 Fax: (0211)5296-400 Toshiba Electronics Asia, Ltd. Hong Kong Head Office Level 11, Tower 2, Grand Century Place, No.193, Prince Edward Road West, Mong Kok, Kowloon, Hong Kong Tel: 2375-6111 Fax: 2375-0969 Boulder, CO (Denver) 3100 Araphahoe Avenue, Ste. 500, Boulder, CO 80303, U.S.A. Tel: (303)442-3801 Fax: (303)442-7216 Munchen Office Buro Munchen Hofmannstrasse 52, D-81379, Munchen, Germany Tel: (089)748595-0 Fax: (089)748595-42 Beijing Office Rm 714, Beijing Fortune Building, No.5 Dong San Huan Bei-Lu, Chao Yang District, Beijing, 100004, China Tel: (010)6590-8796 Fax: (010)6590-8791 Wellington PBM 337, SUITE 22, 11924 Forest Hill Blvd., Wellington, FL 33414 Tel: (561)733-4949 Fax: (561)753-1489 Toshiba Electronics France S.A.R.L. Immeuble Robert Schuman 3 Rue de Rome F-93561, Rosny-Sous-Bois, Cedex, France Tel: (1)48-12-48-12 Fax: (1)48-94-51-15 Chengdu Office Suite 403A, Holiday Inn Crown Plaza 31, Zongfu Street, Chengdu, 610016, China Tel: (028)675-1773 Fax: (028)675-1065 Deerfield, IL (Chicago) One Pkwy., North, Suite 500, Deerfield, IL 60015, U.S.A. Tel: (847)945-1500 Fax: (847)945-1044 Toshiba Electronics Italiana S.R.L. Centro Direzionale Colleoni, Palazzo Perseo 3, 1-20041 Agrate Brianza, (Milan), Italy Tel: (039)68701 Fax:(039)6870205 Shenzhen Office Rm 3010-3013, Office Tower Shun Hing Square, Di Wang Commercial Centre, 5002 ShenNan East Road, Shenzhen, 518008, China Tel: (0755)246-3218 Fax: (0755)246-1581 Duluth, GA (Atlanta) 3700 Crestwood Parkway, Ste. 460, Duluth, GA 30196, U.S.A. Tel: (770)931-3363 Fax: (770)931-7602 Toshiba Electronics Espana, S.A. Parque Empresarial, San Fernando, Edificio Europa, 1a Planta, E-28831 Madrid, Spain Tel: (91)660-6798 Fax:(91)660-6799 Toshiba Electronics Korea Corporation Seoul Head Office 14/F, KEC B/D, 275-7 Yangjae-dong, Seocho-ku, Seoul, Korea Tel: (02)589-4300 Fax: (02)589-4302 Edison, NJ 2035 Lincoln Hwy. #3000, Edison, NJ 08817, U.S.A. Tel: (732)248-8070 Fax: (732)248-8030 Toshiba Electronics (UK) Ltd. Riverside Way, Camberley Surrey, GU15 3YA, U.K. Tel: (01276)69-4600 Fax: (01276)69-4800 Portland, OR 1700 NW 167th Place, #240, Beaverton, OR 97006, U.S.A. Tel: (503)629-0818 Fax: (503)629-0827 Toshiba Electronics Scandinavia A.B. Gustavslundsvagen 12, 2nd Floor, S-161 15 Bromma, Sweden Tel: (08)704-0900 Fax: (08)80-8459 Gumi Office 6/F, Good morning Securities B/D, 56 Songjung-dong, Gumi-shi, Kyeongbuk, Korea Tel: (0546)456-7613 Fax: (0546)456-7617 Raleigh, NC 5511 Capital Center Dr., #114, Raleigh, NC 27606, U.S.A. Tel: (919)859-2800 Fax: (919)859-2898 Toshiba Electronics Asia (Singapore) Pte. Ltd. Singapore Head Office 438B Alexandra Road, #06-08/12 Alexandra Technopark, Singapore 119968 Tel: (6278)5252 Fax: (6271)5155 Toshiba Technology Development (Shanghai) Co., Ltd. 23F, HSBC Tower, 101 Yin Cheng East Road, Pudong New Area, Shanghai, 200120, China Tel: (021)6841-0666 Fax: (021)6841-5002 Richardson, TX (Dallas) 777 East Campbell Rd., #650, Richardson, TX 75081, U.S.A. Tel: (972)480-0470 Fax: (972)235-4114 Bangkok Office 135 Moo 5, Bangkadi Industrial Park, Tivanon Rd., Bangkadi, Amphur Muang, Pathumthai, Bangkok 12000, Thailand Tel: (02)501-1635 Fax: (02)501-1638 San Jose Engineering Center, CA 1060 Rincon Circle, San Jose, CA 95131, U.S.A. Tel: (408)526-2400 Fax:(408)456-2410 Tsurong Xiamen Xiangyu Trading Co., Ltd. 8N, Xiamen SEZ Bonded Goods Market Building, Xiamen, Fujian, 361006, China Tel: (0592)562-3798 Fax: (0592)562-3799 Wakefield, MA (Boston) 401 Edgewater Place, #360, Wakefield, MA 01880, U.S.A. Tel: (781)224-0074 Fax: (781)224-1095 Toshiba Electronics Trading (Malaysia)Sdn. Bhd. Kuala Lumpur Head Office Suite W1203, Wisma Consplant, No.2, Jalan SS 16/4, Subang Jaya, 47500 Petaling Jaya, Selangor Darul Ehsan, Malaysia Tel: (03)5631-6311 Fax: (03)5631-6307 Toshiba Electronics Taiwan Corporation Taipei Head Office 17F, Union Enterprise Plaza Bldg. 109 Min Sheng East Rd., Section 3,105 Taipei, Taiwan Tel: (02)2514-9988 Fax: (02)2514-7892 Toshiba Do Brasil, S.A. Electronic Component Div. Estrada Dos Alvarengas 5500, 09850-550, Brasil Sao Bernardo do campo, S.P. Tel: (011)4358-7171 Fax: (011)4358-7179 Penang Office Suite 13-1, 13th Floor, Menara Penang Garden, 42-A, Jalan Sultan Ahmad Shah, 100 50 Penang, Malaysia Tel: (04)226-8523 Fax: (04)226-8515 Kaohsiung Office 16F-A, Chung-Cheng Bldg.2, Chung-Cheng 3Rd., Kaohsiung, 80027, Taiwan Tel: (07)237-0826 Fax: (07)236-0046 Toshiba Electronics Philippines, Inc. 26th Floor, Citibank Tower, Valero Street, Makati, Manila, Philippines Tel: (02)750-5510 Fax: (02)750-5511 (As of May, 2002) The information contained herein is subject to change without notice. The information contained herein is presented only as a guide for the applications of our products. No responsibility is assumed by TOSHIBA for any infringements of patents or other rights of the third parties which may result from its use. No license is granted by implication or otherwise under any patent or patent rights of TOSHIBA or others. TOSHIBA is continually working to improve the quality and reliability of its products. Nevertheless, semiconductor devices in general can malfunction or fail due to their inherent electrical sensitivity and vulnerability to physical stress. It is the responsibility of the buyer, when utilizing TOSHIBA products, to comply with the standards of safety in making a safe design for the entire system, and to avoid situations in which a malfunction or failure of such TOSHIBA products could cause loss of human life, bodily injury or damage to property. In developing your designs, please ensure that TOSHIBA products are used within specified operating ranges as set forth in the most recent TOSHIBA products specifications. Also, please keep in mind the precautions and conditions set forth in the "Handling Guide for Semiconductor Devices," or "TOSHIBA Semiconductor Reliability Handbook" etc.. The Toshiba products listed in this document are intended for usage in general electronics applications (computer, personal equipment, office equipment, measuring equipment, industrial robotics, domestic appliances, etc.). These Toshiba products are neither intended nor warranted for usage in equipment that requires extraordinarily high quality and/or reliability or a malfunction or failure of which may cause loss of human life or bodily injury ("Unintended Usage"). Unintended Usage include atomic energy control instruments, airplane or spaceship instruments, transportation instruments, traffic signal instruments, combustion control instruments, medical instruments, all types of safety devices, etc.. Unintended Usage of Toshiba products listed in this document shall be made at the customer's own risk. Electronic Devices Sales & Marketing Division 1-1, Shibaura 1-chome, Minato-ku, Tokyo, 105-8001, Japan Tel: +81-3-3457-3406 Fax: +81-3-5444-9431 E-mail: semicon@toshiba.co.jp Gallium arsenide (GaAs) is a substance used in some of the products described in this documents. GaAs dust and fumes are toxic. Do not break, cut or pulverize the products, or use chemicals to dissolve them. When disposing of the products, follow the appropriate regulations. Do not dispose of the products with other industrial waste or with domestic garbage. The products described in this document may include products subject to the foreign exchange and foreign trade laws. Website: http://www.semicon.toshiba.co.jp/eng/index.html 3655C-0207 PC-DQ (c)2002 TOSHIBA CORPORATION Printed in Japan |
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