Description
FHO5000 series Optical Time Domain Reflectometer (OTDR) is an intelligent meter of a new generation for the detection of fiber communications systems. With the popularization of optical network construction in cities and countrysides, the measurement of optical network becomes short and disperse; FHO5000 is specially designed for that kind of application. It’s economic, having outstanding performance.
FHO5000 is manufactured with patience and carefulness, following the national standards to combine the rich experience and modern technology, subject to stringent mechanical, electronic and optical testing and quality assurance; in the other way, the new design makes FHO5000 more smart and compact and multi-purpose.
Whether you want to detect link layer in the construction and installation of optical network or proceed efficient maintenance and trouble shooting, FHO5000 can be your best assistant.
FEATURES
- Integrated design, smart and rugged
- IP65 protection level, outdoor enhanced
- 7-inch anti-reflection LCD screen
- PON online test module (1625nm) is optional
- MMF test module (850/1300nm) is optional
- Support multi-language display and input
- FTTX test with PON networks
- CATV network testing
- Access network testing
- LAN network testing
- Metro network testing
- Lab and Factory testing
- Live fiber troubleshooting
- Ready for all kinds of environment.
FHO5000 series OTDR is specially designed for tough outdoor jobs. IP65 protection level, lightweight, easy operation, low-reflection LCD and more than 12 hours working period make it perfect in field testing. Meanwhile, optional PCB board with water-proof coating helps FHO5000 series OTDR get better protection performance.
What you need is all-in-one!
FHO5000 series OTDR is a highly integrated platform that features with four module slots, with a large 7-inch color screen (with a touchscreen option), a high-capacity Lithium-Ion battery, an optional microscope (through universal serial bus [USB] port), and built-in optical test functions, such as PON test module, visual fault locator (VFL), optional power meter and laser source, making it qualified in the installation, turn-up, and maintenance of FTTx/Access optical networks.
Humanized Test Interface
FHO5000 series OTDR could display Splice loss, Connector loss, Fiber attenuation, Reflection of points, Link opitcal return loss and distance to fiber events etc. With test information in a smart way, user could get detailed information immediately.
Quick fit in short time
Simplified display style and structured menus help effective in reducing the time of study.
FTTH test within PON networks
FHO5000 series OTDR’s models, like T40F and T43F, are dedicated to the testing of PON network maintenance and troubleshooting without service disruption.
Last mile master
FHO5000 series OTDR could easily test through 1*32 PLC splitter in PON test (Model: FHO5000-T43F).
Fiber Microscope
Microscope is optional for FHO5000 series OTDR. 400X amplification and variety of accessories ensure perfect terminal condition before test.
The essential first step
Taking time to properly inspect connector end faces can prevent a slew of problems down the lines, saving you time, money and headaches.
Result transfer
Check test results on PC or PDA through USB; 4GB large internal memory space could store more than 40,000 groups of results.
Link in line
- Download reference traces and settings from database
- Send measurement results via email
- Ask for remote help
Specification
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Built-in VFL
Buil-in Power Meter (Optional)
Built-in Laser Source
| Wavelength (±20nm) | 650nm |
| Power | 10mw,CLASSIII B |
| Range | 12km |
| Connector | FC/UPC |
| Launching Mode | CW/2Hz |
Buil-in Power Meter (Optional)
| Wavelength Range (±20nm) | 800~1700nm |
| Calibrated Wavelength | 850/1300/1310/1490/1550/1625/1650nm |
| Test Range | Type A: -65~+5dBm (standard); Type B: -40~+23dBm (optional) |
| Resolution | 0.01dB |
| Accuracy | ±0.35dB±1nW |
| Modulation Identification | 270/1k/2kHz,Pinput≥-40dBm |
| Connector | FC/UPC |
Built-in Laser Source
| Working Wavelength (±20nm) | 1310/1550/1625nm⑤ |
| Output Power | Adjustable -25~0dBm |
| Accuracy | ±0.5dB |
| Connector | FC/UPC |
Optional Microscope
Notes:
①Typical, backlight off, sweeping halted at 25℃, 12 hours typical continuous testing.
② Model T40F/T43F/T45F are integrated with optical filter, which allow them to test PON network online (by using 1625nm wavelength) and will not interrupt the fiber signal.
③Dynamic range is measured with maximum pulse width, averaging time is 3 minutes, SNR=1; The level difference between the RMS noise level and the level where near end back-scattering occurs.
| Magnification | 400X |
| Resolution | 1.0µm |
| View of Field | 0.40×0.31mm |
| Storage/working Condition | -18℃~35℃ |
| Dimension | 235×95×30mm |
| Sensor | 1/3 inch 2 million of pixel |
| Weight | 150g |
| USB | 1.1/2.0 |
| Adapter⑥ | SC-PC-F (For SC/PC adapter) FC-PC-F (For FC/PC adapter) LC-PC-F (For LC/PC adapter) 2.5PC-M (For 2.5mm connector, SC/PC, FC/PC, ST/PC) |
Models
| Mdels② | Testing Wavelength (MM: ±20nm, SM: ±10nm) | Dynamic Range (dB)③ | Event/Attenuation Dead-zone (m)④ |
| FHO5000-M21 | 850/1300 | 19/21 | 0.8/4 |
| FHO5000-MD21 | 850/1300/1310/1550 | 19/21/35/33 | 0.8/4/1/4 |
| FHO5000-MD22 | 850/1300/1310/1550 | 19/21/40/38 | 0.8/4/1/4 |
| FHO5000-D26 | 1310/1550 | 26/24 | 0.8/4 |
| FHO5000-D32 | 1310/1550 | 32/30 | 0.8/4 |
| FHO5000-D35 | 1310/1550 | 35/33 | 0.8/4 |
| FHO5000-D40 | 1310/1550 | 40/38 | 1/4 |
| FHO5000-D43 | 1310/1550 | 43/41 | 1/5 |
| FHO5000-D45 | 1310/1550 | 45/43 | 1/5 |
| FHO5000-T40F | 1310/1550/1625 | 40/38/38 | 1/4 |
| FHO5000-T43F | 1310/1550/1625 | 43/41/41 | 1/5 |
| FHO5000-T45F | 1310/1550/1625 | 45/43/43 | 1/5 |
| FHO5000-TC35F | 1310/1550/1650 | 35/33/31 | 0.8/4 |
| FHO5000-TP35 | 1310/1490/1550 | 35/33/33 | 0.8/4 |
Notes:
①Typical, backlight off, sweeping halted at 25℃, 12 hours typical continuous testing.
② Model T40F/T43F/T45F are integrated with optical filter, which allow them to test PON network online (by using 1625nm wavelength) and will not interrupt the fiber signal.
③Dynamic range is measured with maximum pulse width, averaging time is 3 minutes, SNR=1; The level difference between the RMS noise level and the level where near end back-scattering occurs.
