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FIBER OPTIC TRANSCEIVING MODULE
TODX294
FIBER OPTIC TRANSCEIVING
MODULE FOR DUPLEX DIGITAL
SIGNAL COMMUNICATION
l Data rate: DC to 10 Mb / s (NRZ code)
l Transmission distance: Up to 1000 m
l TTL interface
l LED is driven by Differential circuit.
l ATC (Automatic Threshold Control) circuit is
used for stabilized output at wide range of
optical power level.
1. Maximum Ratings (Ta = 25°C)
Characteristics Symbol Rating Unit
Storage Temperature Tstg 40 to 85 °C
Operating Temperature Topr 40 to 85 °C
Supply Voltage VCC 0.5 to 7 V
Input Voltage VIN 0.5 to VCC + 0.5 V
Low Level Output Current IOL 20 mA
High Level Output Current IOH 1 mA
Soldering Temperature Tsol 260 (Note 1) °C
Note 1: Soldering time 3 s (More than 1 mm apart from the package).
Handling precaution: The LEDs used in this product contain GaAs (Gallium Arsenide).
Care must be taken to protect the safety of people and the environment when scrapping or
terminal processing.
Unit: mm
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2. Recommended Operating Conditions
Characteristics Symbol Min Typ. Max Unit
Supply Voltage VCC 4.75 5.0 5.25 V
High Level Input Voltage VIH 2.0 V
CC V
Low Level Input Voltage VIL 0 0.8 V
High Level Output Current IOH 150 µA
Low Level Output Current IOL 1.6 mA
3. Electrical and Optical Characteristics (Ta = 25°C, VCC = 5 V)
Characteristics Symbol Test Condition Min Typ. Max Unit
Data Rate NRZ Code (Note 2) DC 8 Mb / s
Using PCF (Note 3), TODX294 0.2 1000 m
Transmission Distance
Using PCF (Note 4), TODX294 0.2 700 m
Pulse Width Distortion (Note 5) tw
Using TODX294
Pulse width 100 ns
Pulse cycle 200 ns, CL = 10 pF
30 30 ns
Fiber Output Power Pf R = 1.2 k (Note 6) 20 14 dBm
Peak Emission Wavelength λp 800 nm
Maximum Receivable Power (Note 7) PMAX DC to 10 Mb/s, Using PCF 18 dBm
Minimum Receivable Power (Note 7) PMIN DC to 10 Mb/s, Using PCF 29 dBm
Current Consumption ICC R = 1.2 k 60 95 mA
High Level Input Voltage VIH 2.0 V
Low Level Input Voltage VIL 0.8 V
High Level Input Current IIH 20 µA
Low Level Input Current IIL 0.4 mA
High Level Output Voltage VOH 2.7 V
Low Level Output Voltage VOL 0.4 V
Note 2: LED is on when input signal is high level, it is off when low level.
High level output when optical flux is received. Low level output when it is not received.
Note 3: TOCP200Q□□B, TOCP200X□□B
Note 4: CF2071 series
Note 5: Between input of TODX294 and output of TODX294.
Note 6: Measure with a standard optical fiber with fiber optic connectors. Valued by peak.
Note 7: BER 109, Valued by peak.
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4. Example of Typical Characteristics (Note 8)
Note 8: There give characteristic examples, and its values are not guaranteed.
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Note 8: There give characteristic examples, and its values are not guaranteed.
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Note 8: There give characteristic examples, and its values are not guaranteed.
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5. Application Circuit
Note 9: Select a resistor value as follows:
Fiber Optic Connector
Type Name
Transmission Distance
(m)
Resistor
()
0.2 to 300 8.2 k
300 to 600 3.9 k
TOCP200Q□□B
TOCP200X□□B
600 to 1000 1.2 k
0.2 to 150 8.2 k
150 to 350 5.1 k
350 to 500 2.7 k
CF2071 series
500 to 700 1.2 k
6. Applicable Optical Fiber with Fiber Optic Connectors
TOCP200Q□□B, TOCP200X□□B
CF2071 series
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7. Precaution on Use
(1) Maximum rating
The maximum ratings are the limit values which must not be exceeded during operation of device.
None of these rating value must not be exceeded. If the maximum rating value is exceeded, the
characteristics of devices may never be restored properly. In extreme cases, the device may be
permanently damages.
(2) Lifetime of light emitters
If an optical module is used for a long period of time, degeneration in the characteristics will mostly
be due to a lowering of the fiber output power (Pf). This is caused by the degradation of the optical
output of the LEDs used as the light source. The cause of degradation of the optical output of the
LEDs may be defects in wafer crystallization or mold resin stress. The detailed causes are, however,
not clear.
The lifetime of light emitters is greatly influenced by the operating conditions and the environment in
which it is used as well as by the lifetime characteristics unique to the device type. Thus, when a light
emitting device and its operating conditions determined, Toshiba recommend that lifetime
characteristics be checked.
Depending on the environment conditions, Toshiba recommend that maintenance such as regular
checks of the amount of optical output in accordance with the condition of operating environment.
(3) Soldering
Optical modules are comprised of internal semiconductor devices. However, in principle, optical
modules are optical components. During soldering, ensure that flux does not contact with the emitting
surface or the detecting surface. Also ensure that proper flux removal is conducted after soldering.
Some optical modules come with a protective cap. The protective cap is used to avoid malfunction
when the optical module is not in use. Note that it is not dust or waterproof.
As mentioned before, optical modules are optical components. Thus, in principle, soldering where
there may be flux residue and flux removal after soldering is not recommended. Toshiba recommend
that soldering be performed without the optical module mounted on the board. Then, after the board
has been cleaned, the optical module should be soldered on to the board manually.
If the optical module cannot be soldered manually, use nonhalogen (chlorinefree) flux and make
sure, without cleaning, there is no residue such as chlorine. This is one of the ways to eliminate the
effects of flux. In such a cases, be sure to check the devices reliability.
(4) Noise resistance
It is believed that the use of optical transfer devices improve noise resistance. In theory, optical fiber
is not affected by noise at all. However, receiving modules which handle signals whose level is
extremely small, are susceptible to noise.
TOSLINK improve noise resistance to use a conductive case. However, the current signal output by
the optical receiving modules photodiode is extremely small. Thus, in some environments, shielding
the case may not achieve sufficient noise resistance.
First systems which incorporate TOSLINK, Toshiba recommend testing using the actual device to
check its noise resistance.
Use a simple noise filter on TOSLINK fiber optic transceiving modules power line. If the ripple in the
power supply used is significant, reinforce the filter.
The optical module is to be used in an area which is susceptible to radiated noise, increase the
shielding by covering the optical module and the power line filter with a metallic cover.
(5) Vibration and shock
This module is plastic sealed and has its wire fixed by resin. This structure is relatively resistant to
vibration and shock. In actual equipment, there are sometime cases in which vibration, shock, or
stress is applied to soldered parts or connected parts, resulting in lines cut. A care must be taken in
the design of equipment which will be subject to high levels of vibration.
(6) Fixing fiber optical transceiving module
Solder the fixed pin (pins 9 and 10) of fiber optic transceiving module TODX294 to the printed circuit
board to fix the module to the board.
(7) Shielding and wiring pattern of fiber optic transceiving modules
To shield, connect the fixed pins (pins 9 and 10) of fiber optic transceiving module TODX294 to the
GND.
Where the fiber optic transceiving module uses conductive resin, be careful that the case does not
touch wiring (including land).
To improve noise resistance, shield the optical module and the power line filter using a metallic cover.
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(8) Solvent
When using solvent for flux removal, do not use a high acid or high alkali solvent. Be careful not to
pour solvent in to the optical connector ports. If solvent is inadvertently poured in to them, clean it off
using cotton tips.
(9) Protective cap
When the TODX294 is not in use, attach the protective cap.
(10) Supply voltage
Use the supply voltage within the recommended operating condition (VCC = 5 ± 0.25 V). Make sure
that supply voltage does not exceed the maximum rating value of 7 V, even for an instant.
(11) Input voltage
If a voltage exceeding the maximum rating value (VCC + 0.5 V) is applied to the transmitter input,
the internal IC may suffer damage. If there is a possibility that excessive voltage due to surges may
be added to the input terminal, insert a protective circuit.
(12) Output
If the receiver output is at low and is connected to the power supply, or if the output is high and is
connected to GND, the internal IC may be destroyed.
(13) Soldering condition
Solder at 260°C or less for no more than three seconds.
(14) Precautions when disposing of devices and packing materials.
When disposing devices and packing materials, follow the procedures stipulated by local regulations
in order to protect the environment against contamination.
Compound semiconductors such as GaAs are used as LED materials in this module. When devices are
disposed of, worker safety and protection of the environment must be taken into account.
(15) Precautions during use
Toshiba is continually working to improve the quality and the reliability of their products.
Nevertheless, semiconductor devices in general can malfunction or fail due to their inherent electrical
sensitivity and their vulnerability to physical stress. It is the responsibility of the buyer, when
utilizing Toshiba products, to observe standards of safety, and to avoid situations in which the
malfunction or failure of a Toshiba product could cause loss of human life, bodily injury or damage to
property.
When developing equipment, please ensure that Toshiba products are used within the specified
operating ranges set forth in the most recent product specifications. Also, please keep in mind the
precautions and conditions set forth in the Toshiba Semiconductor Reliability Handbook.
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· 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.
· Gallium arsenide (GaAs) is a substance used in the products described in this document. GaAs dust and fumes
are toxic. Do not break, cut or pulverize the product, 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 information contained herein is presented only as a guide for the applications of our products. No
responsibility is assumed by TOSHIBA CORPORATION for any infringements of intellectual property or other
rights of the third parties which may result from its use. No license is granted by implication or otherwise under
any intellectual property or other rights of TOSHIBA CORPORATION or others.
· The information contained herein is subject to change without notice.
000707EAC
RESTRICTIONS O N PRODUCT USE