N3970A OPTICAL POWER METER
Operating and
Maintenance Guide
■ N3970A OPTICAL POWER METER SOURCE QUICK REFERENCE GUIDE
■ To remove interchangeable connector, move interface to MANUAL OPERATION
mid position, and pull off adaptor.
■ To turn on and select wavelength, push: POWER, Power
■ To defeat auto power-off, hold POWER for 3 seconds at
Meter, -/+.
turn on until ON and perm are displayed.
■ To display linear mode, push dBm/W.
■ To access hidden keypad, pull up display cover.
Select POWER, Source, then:
■ To display max/min values, push MAX/MIN repeatedly.
Hold MAX/MIN to reset (3 buzzer sounds). .
■ To set reference, push Abs/Rel and hold Set Ref for
MEMORY
3 seconds (3 buzzer sounds).
■ Enter Power Meter or Autotest modes first
■ While in Autotest mode, it is only possible to STORE.
■ To display reference, hold Abs/Rel, so Ref flashes.
■ To stop / start display update, push Hold.
■ If a test tone is detected, meter will display Hz.
AUTOTEST OPERATION
■ To clear all memory, push both RECALL and CANCEL
together for 3 seconds. clr will display.
■ To store in next location, push STORE.
■ No user action is required for meter to enter Autotest
■ To change next store location, push SELECT -/+, SET.
■ To recall, push RECALL -/+ to scroll through data.
■ To exit memory display, push CANCEL.
mode.
■ Autotest: Push Autotest on source and wait a few
seconds.
ADDITIONAL AUTOTEST MEMORY OPERATION
■ Can also push Autotest on meter for faster lock-on.
■ To read or cancel memory, first exit Autotest mode, and
■ To display one wavelength only, on the power meter
push the left side of -/+ and again for the other wavelength.
Push right side of -/+ (twice) to exit.
enter Power Meter mode.
■ Autotest memory: use -/+ to scroll wavelengths.
■ Autotest remains for >8 seconds after signal loss, to allow
quick connection change.
■ Toexitautotest, removetestleadorturnoffsourcefor>8seconds.
■ INTRODUCTION AND APPLICATIONS
N3970A
OPTICAL POWER METER
Congratulations on your purchase of this instrument,
which has been engineered to provide the best possible
reliability, convenience and performance. To get the best
use from your equipment and ensure its safe operation,
please spend a few minutes to read this manual.
1
■ CONTENTS
Service and Support
Introduction & applications
Safety Summary
3
4-5
6-7
8
Care of your instrument
Accuracy considerations
19
20-21
Calibration, maintenance & instrument returns 22-24
Battery and external power
Optical connector
Specifications - Definition of terms
Specifications and ordering information
Performance test
25
26-28
29-38
39-40
41
9-10
How to use:
Getting started and turning on
Autotest operation
11-12
13-14
15
Cleaning information
Cleaning procedures
Power meter operation
Storing & recalling readings
RS232 interface
Disclaimer & warranty
Notes
42
16-17
18
43-44
BEFORE READING FURTHER, OPEN THE CONTROL PANEL PICTURE AT THE BACK OF THE MANUAL
2
■ SERVICE AND SUPPORT
Any adjustment, maintenance, or repair of this product must be Australia
performed by qualified personnel. Contact your customer
1 800 629 485
(613) 9272 0749 (Fax)
engineer through your local Agilent Technologies Service
Center. You can find a list of local service representatives on the
New Zealand
Asia-Pacific
0800 738 378
64 4 495 8950 (Fax)
(852) 3197 7777
(852) 2506 9284 (Fax)
If you do not have access to the Internet, one of these centers
can direct you to your nearest representative:
United States
Canada
1 800 452 4844
1 877 894 4414
(905) 206 4120 (Fax)
Europe
(31 20) 547 2323
(31 20) 547 2390 (Fax)
Japan
(81) 426 56 7832
(81) 426 56 7840 (Fax)
Latin America
(305) 269 7500
(305) 269 7599 (Fax)
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■ INTRODUCTION AND APPLICATIONS
The N3970A Optical Power Meter is used for field or laboratory High operational reliability & availability is achieved with 250
testing of fiber optic systems at typically 850, 1300, 1310 and hour battery life, 3 year recommended re-calibration cycle,
1550 nm. It features superb measurement confidence, ease of negligible warm up and no range-changing delays. Dark current
use and reduced cost of ownership, and is for use by installers, offset is not required. An external power input is also provided.
technicians and engineers.
The combination of features enables reduced equipment
Superior measurement confidence is achieved with a unique inventory, simpler training, shorter procedures, lower skill
Total Uncertainty specification over the full temperature, levels and direct labour savings in many situations, combining
measurement and connector range, and a NATA traceable to give lower cost of ownership.
calibration certificate. The display hold and back light facilities
The innovative optical connector port provides drop protection
help acquire readings, and the flexible memory helps record
during use, and is dust protected by a snap on cover. The
your results
interchangeable optical connector system is very versatile, and
Autotest mode enables automatic l (wavelength) detection and easily disassembled for cleaning.
attenuation measurement (in combination with an Autotest
source). A single or dual l source and meter in Autotest mode
automatically measure single or dual l attenuation in one
direction.
The simple user interface guides the operator through functional
sequences, and a hidden keypad is used to access advanced
features such as log/linear display, and memory functions.
4
■ INTRODUCTION AND APPLICATIONS
The tone detector is very sensitive, and is useful for fiber
identification, and calibrating the modulation frequency of test
tone sources.
The instrument has shock absorbent corners, and a tough
polycarbonate housing which has passed extensive drop testing.
Typical applications
■
Singlemode testing, with versatile interchangeable
connectors.
■
Telecom construction, maintenance, CATV, LAN and R&D
applications.
■
Measurements where traceability and documentation are
required.
■
Quality assurance and acceptance tests.
■
Automated testing and reporting using optional Excel software.
■
Test tone measurement & fiber identification.
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■ SAFETY SUMMARY
The following general safety precautions must be observed
during all phases of operation, service, and repair of this
instrument. Failure to comply with these precautions or with
specific warnings elsewhere in this manual violates safety
standards of design, manufacture, and intended use of the
instrument. Agilent Technologies Inc. assumes no liability for
the customer’s failure to comply with these requirements.
CAUTION
The CAUTION sign denotes a hazard. It calls attention to an
operating procedure, or the like, which, if not correctly
performed or adhered to, could result in damage to or
destruction of part or all of the product. Do not proceed beyond
a CAUTION sign until the indicated conditions are fully
understood and met.
Before operation, review the instrument and manual, for safety
markings and instructions. You must follow these to ensure safe
operation and to maintain the instrument in safe condition.
CAUTION
WARNING
ƽ
The WARNING sign denotes a hazard. It calls attention to a
procedure, practice or the like, which, if not correctly performed
or adhered to, could result in injury or loss of life. Do not
proceed beyond a WARNING sign until the indicated conditions
are fully understood and met.
The apparatus will be marked with this symbol when it is
necessary for the user to refer to the instruction manual in order
to protect the apparatus against damage.
6
■ SAFETY SUMMARY
Initial Inspection
Line Power Requirements
Inspect the shipping container for damage. If there is damage to The Agilent N3970A Power Meter operates at line power when
the container or Cushioning, keep them until you have checked applied to the optional external power supply N3979A 9V DC
the contents of the shipment for completeness and verified the
Operating Environment
instrument both mechanically and electrically.
The Agilent N3970A Power Meter can be operated at
temperatures between - 10°C and + 55°C and at relative
humidity of <95%.
The Performance Tests give procedures for checking the
operation of the instrument. If the contents are incomplete,
mechanical damage or defect is apparent, or if an instrument
does not pass the operator’s checks, notify the nearest Agilent
Technologies Sales/Service Office (see page 3).
Storage and Shipment
The Agilent N3970A Power Meter can be stored or shipped at
temperatures between - 25°C and + 70°C and at relative
humidity of less than 95%. Protect the module from
temperature extremes that may cause condensation within it.
WARNING
To avoid any hazard, do not perform electrical tests when there
are signs of shipping damage to any portion of the outer
enclosure (covers, panels, and so on).
REQUIREMENT COMPLIANCE
WARNING
You MUST return instruments with malfunctions to an Agilent
Technologies Service Center for repair and calibration (see page 3).
N 10149
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■ BATTERY AND EXTERNAL POWER
The instrument is powered by two 1.5V dry batteries (Alkaline C) for For operation of the instrument by external power use Agilent
an operating period of typically 250 hours or two 1.2V AC adaptor N3979A (9V DC, 1.33 A,
rechargeable batteries for an operating period of approximately
).
Use of the external power supply disconnects the batteries.
125 hours.
Ensure that the mains supply has the correct voltage rating and
safety compliance as relevant. Do not use non-compliant or
doubtful mains equipment.
Do not use lithium batteries or other batteries with a nominal
voltage greater than 1.8 V. The instrument will be damaged.
When the batteries are low, the low-battery indicator is shown
on the display. At this stage, there is approximately enough
energy for another 30 minutes of use.
For saving of energy the instrument automatically turns off after
10 minutes without operation.
For changing the battery, open the cover of the battery
compartment at the base of the instrument, remove the batteries,
insert new batteries (check polarity) and close the cover again.
Rechargeable batteries must be charged by an external charger.
8
■ OPTICAL CONNECTOR
The optical port is mounted on a swivel, which allows the Optical connectors are precision components, and require care
connector to be angled outwards for accessibility, and then in use:
pushed back and covered with the snap cover to provide dirt and
drop protection.
■ Always clean the mating connector tip and ferrule before
mating, using approved materials.
The other port can be used to store a spare interchangeable
optical connector.
■ This instrument can be used with both PC and APC
connector styles (unlike sources, which are factory
To install the connector adaptor, align the locating slot on the
side of the adaptor with that on the instrument connector, and
push it on.
configured for PC only ).
■ The soft carry case enables the instrument to be stored
without removing the test leads. This practice saves time,
and is to be recommended.
To remove the connector adaptor, move the connector port to it’s
mid-way point (see dotted line on diagram at back of manual),
and then pull off the adaptor. It is not possible to remove the
adaptor in the ‘open’ or ‘shut’ positions. With some styles of
connector, it is easier to pull off the adaptor with a test lead in
place, since this gives better grip.
■ When not in use, keep all test ports and connectors covered
and away from dust.
■ Do not touch connector tips with your fingers,
since body oils and dirt can impair connector performance.
■ Do not use damaged or incompatible connectors.
Different styles of connector adaptor ( ST, SC, FC, ) can be
easily fitted by the user.
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■ OPTICAL CONNECTOR
meter inaccuracy may result. Preferred bare fiber adaptors
consist of a connector with fiber retention device.
If you work regularly with bare fibers, to avoid potential damage
to the meter, it is generally preferable to use an alternative
Cleaning
The glass power meter interface does not make contact with the
inserted connector: there is a slight air gap. Therefore it should
not wear out, and only needs occasional cleaning.
arrangement such as
a
multimode pigtail with
a
To clean the glass power meter interface: remove the
interchangeable adaptor to access the glass interface, then use
a sticky material such as ‘ Blu tac ‘ to dab the glass and remove
any dirt. A soft brush, alcohol, or air can are also appropriate.
Do not use anything hard that could scratch the glass.
v-groove or mechanical splice.
In this manual, refer to the sections on Cleaning Information
and Procedures for further information.
Bare fiber adaptors
Bare fiber adaptors used with this power meter must achieve
+
fiber eccentricity of _ 100 microns and end tolerance of
+
_ 0.3 mm, relative to the ferrule end. Be careful not to scratch
the detector interface when using adaptors, since permanent
10
■ GETTING STARTED AND TURNING ON
This and following sections show you how to use your This instrument uses a menu driven keypad. The function of
instrument:
each button is shown on the display.
Check that the correct accessories have been supplied, and an To access the optical connector, grasp a top corner of the
optical connector adaptor has been fitted. If you have any instrument, and pull off the cover. The connector can be
queries, call your supplier to resolve the situation.
swivelled to improve access.
Put in the batteries, or plug external power into the socket at the After instrument turn on, the instrument will perform a self-
top of the instrument (see Battery and External Power section). calibration sequence, set the dark current adjustment, and then
display absolute power in dBm at the previously set l . If HI or
Push the green POWER button. The display will come on.
If the battery is low, this will be indicated on the display.
Pushing POWER again will turn the instrument off.
LO are displayed, the input is out of range.
The hidden keypad is accessed by pulling up the hinged display
cover. The hidden keypad can operate in two modes. The
second mode is accessed by SHIFT. Access to the second mode
can be denied / permitted by typing the button sequence
: POWER (turn on instrument), SHIFT, CANCEL, SET, SELECT,
RECALL, STORE.
To stop the instrument turning off 10 minutes after the last key
press, hold POWER down for 3 seconds during turn-on. PERM
on the display indicates that the unit will stay on permanently.
To back light the display temporarily, select LIGHT. To back light
continuously, hold down the button for 3 seconds. Use of the
back light will drain the batteries faster.
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■ GETTING STARTED AND TURNING ON
To disable or enable the buzzer, hold down SHIFT for 3 seconds.
To add the carry strap: slip the end of the strap through the slit
on the curved section at the back of the instrument, and secure
the buckle.
This instrument requires no warm up, and no user adjustment
of dark current to achieve it’s specified performance.
To learn how to use the instrument features, go to the next
section.
Should the instrument fail to turn on, the microprocessor may
need re-booting. To do this, remove batteries and external
power for at least 40 seconds. This will not lose stored data.
12
■ AUTOTEST OPERATION
General Autotest features
Operation
For Autotest to function, all instruments involved in the test Turn on the source and meter, and connect them with a test lead.
must be Agilent Handheld instruments with an Autotest On the light source, push AUTOTEST.
function.
This is all that is required to start Autotest operation on the
The Autotest feature performs automated measurement (and power meter.
automatic l detection) by data exchange between instruments,
and requires minimal operator knowledge: turn the instrument
on, connect a test lead, and select AUTOTEST on the source.
Subsequent operation is automated, although some choices can
be made for convenience.
The meter will automatically set to the correct l and display
absolute power in dBm. The display will alternate between
wavelengths. To display only one l at a time, push +/-.
You may also select AUTOTEST on the meter, which forces the
meter into Autotest mode, with faster synchronisation in this
mode (the source must be in Autotest mode). Push MENU to
exit.
Functionality is determined by the options fitted to the
instrument(s) used. Autotest configures itself according to the
options available, and carries out the most comprehensive test
possible.
The source power transmitted from the source is displayed on
the left hand side of the display.
Autotest remains synchronised for about 8 seconds, which
enables the user to change optical connections without
re-starting Autotest each time.
Push ABS/REL to make the meter display relative power.
The stored reference value(s) are displayed on the left hand side
of the display.
A light source transmits Autotest signals at one or two
wavelengths to an appropriate power meter.
To take a reference under Autotest, connect the source and
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■ AUTOTEST OPERATION
meter with a test lead. Set the source to Autotest mode, and then
push SET REF on the meter for 3 seconds. This will store the
reference at all relevant wavelengths.
Either a ‘local’ or ‘remote’ reference can be stored.
To exit Autotest mode, either disconnect the optical test lead, or
exit Autotest mode on the light source for > 8 seconds.
Refer also to manual sections on:
■ Storing and recalling readings.
14
■ POWER METER OPERATION
After instrument turn on, the meter will be calibrated at the last
used l . To change parameters, push POWER METER, then:
To select a calibrated l , push +/-. l is displayed on the top right
side of the display.
To display relative power, push ABS/REL. The display will
show dB R.
To store a new reference, push SET REFfor 3 seconds.
To display the stored reference value, keep ABS/REL depressed.
To change the dBm display between linear and log, access the
hidden keypad and push dBm/W.
If the meter detects a modulated signal, the display will change
to show the actual measured modulation frequency in Hz,
and if a standard tone is detected ( eg 270 Hz, 1 KHz,
2 KHz ), a buzzer will sound. This is useful for fiber
identification and signalling. The meter can also be used to
check the actual modulation frequency of test sources.
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■ STORING & RECALLING READINGS
There are various ways of storing and recording data, giving the Storing & recalling readings using non-volatile memory
user flexible ways of working. They are summarised here for
your convenience.
In Autotest, stored data includes absolute & relative values at all
possible wavelengths.
Storage of reference values: A separate reference is stored for
each l and can be recalled when the instrument is next turned
on.
Note: To recall data, the unit must be in manual ‘power meter’
mode.
In manual mode, stored data includes absolute, relative and
reference values.
Display hold: To hold the display at it’s current value, push
HOLD. This value can then be stored. Push HOLD again to
continue updating the display.
You can store, display or download up to 845 readings in non-
volatile memory.
Automatic recording of maximum & minimum limits: To display
the minimum and maximum value over a period, access the
hidden keypad and push MAX/MIN. The display will show the
maximum and minimum values in sequence. Then push
MAX/MIN for 3 seconds to re-start the recording process. This
function re-sets automatically when instrument parameters are
altered.
Memory No
Identifier
Space
1 - 199
200 - 1990 (steps of 10)
1 - 199
200 - 1990 (steps of 10)
1 - 199
Total memory
mem
mem
ID
199
179
199
179
89
ID
mem / ID
845
16
■ STORING & RECALLING READINGS
The memory location is shown at the top right of the display.
Read from any location: push RECALL, +/-. To display the
relative value, push ABS/REL, and to display the reference, hold
down ABS/REL.
When storing data, the memory automatically increments to
facilitate the collection of data on a job.
Clear the whole memory: push CANCEL and RECALL together
for 2 seconds. CLR will display.
You can also go back and over-write particular records.
After the data has been recorded, the entire memory can be
cleared ready for the next job.
Memory operating sequence
Store data in next location: push STORE
Store data starting at a particular location: push SELECT, +/-,
SET, STORE
The memory can not be read in Autotest mode. Exit Autotest
before reading the memory.
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■ RS232 INTERFACE
The connection details of the instrument, and connecting cables are as follows :
Some (out of spec) serial ports need a 10 K resistor in the D connector across wires 1 & 2.
Wire 1 (screen)
Body (Gnd)
Pin 5 (Gnd)
Wire 2
Ring (Tx)
Pin 2 (Rx)
Wire 3
Tip (Rx)
Pin 3 (Tx)
Instrument Jack Plug
9 Pin D connector for RS232
The RS232 interface can be used to access and control the instrument from an external computer. All functions can be accessed
remotely. See next pages for available software.
The baud rate can be set to: 0.3, 0.6, 1.2, 2.4, 4.8, 9.6, 19.2, 38.4, 56 Kbaud. The default and printer baud rate is 9.6 Kbaud. To set the
baud rate, on the hidden keypad, select -SHIFT- BAUD RATE, then -/+ to SET the rate, followed by set. At turn on, the default is
restored.
Local / remote modes
The hidden keypad enables the user to lock out the front panel controls, by selecting LOCAL or REMOTE.
18
■ CARE OF YOUR INSTRUMENT
■ Follow the directions in this manual on cleaning optical ■ Clean the instrument using alcohol or other non solvent
connectors.
cleaning agents. Acetone or other active solvents may
damage the case.
■ Limit the input optical power to no more than 5 dB over-
range.
■ The instrument housing is made of tough Polycarbonate
material with impact absorbing rubberised corner features,
and is therefore drop resistant.
■ During storage and transport, keep the instrument in its
carry case to protect against crushing, vibration, dust and
moisture.
■ The instrument is resistant to normal dust and moisture,
however it is not waterproof. If moisture does get into the
instrument, dry it out carefully before using it again.
■ Where possible, keep instrument away from strong sunlight.
■ During prolonged storage, remove batteries to eliminate the
possibility of acid leakage. Use only high quality sealed
alkaline batteries.
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■ ACCURACY CONSIDERATIONS
All measurements
Most available laser sources ( except the N3974A Dual Laser
Source ) are sensitive to reflections. Varying reflections can
induce source instability of around 0.3 dB. This is very difficult
to verify without a special test system, but can be a source of
errors.
Optical connectors should be kept clean and in good condition.
Due to emitter center l uncertainty (eg 1310 +/- 20 nm), fiber
attenuation may vary with different sources.
This l uncertainty can also affect power meter calibration. This
is significant with InGaAs in the 850 nm band, and absolute
errors in the order of 1 dB are possible. This issue affects
absolute power measurements. It does not significantly affect
attenuation measurements where the meter was referenced to
the same source.
Polarisation changes create disturbances in both the optical
system and measurement equipment. To reduce this, keep your
system physically stable. Keep patch leads neat, coiled and
stable.
The N3970A Optical Power Meter has an InGaAs detector.
Source power may drift: when you have finished a test, go back
to the start position to check if source power is still within
acceptable limits. It is worth noting that most sources only
quote typical drift after warm up. Actual drift may of course be
significantly worse, and will be very variable between
instruments. The N3974A Dual Laser Source is unusual in
offering maximum drift specifications, without warm up.
20
■ ACCURACY CONSIDERATIONS
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■ CALIBRATION & MAINTENANCE
Enabling / disabling ‘shift’ keypad & re-booting the To enable calibration mode, open the battery compartment, hold
microprocessor: See section on ‘getting started & back the battery spring, remove the anti-tamper label, and insert
turning on.
a 0.1” pitch programming shunt. Manipulation of the shunt is
easier with needle nose pliers. The meter will display ‘CAL’
Calibration
Before commencing calibration:
Calibration can be readily performed without opening the
instrument. Calibration is performed by setting up a singlemode
laser source at a stable but non-critical power level between -10
and -30 dBm, and adjusting the meter reading to the same value
as that shown by a reference meter.
■ Clean all connectors and the meter input ports very carefully
■ Ensure all devices have been at stable room temperature for
over an hour
■ The source is fully warmed up at the l to be calibrated,
■ The meter battery is good.
Alternatively, known calibration constants can be
re-entered directly without using other equipment. This is useful
in case old calibration constants are to be put back, or the
instrument memory has been corrupted.
On the meter to be calibrated, record the existing calibration
offsets as follows:
■ Select POWER METER, +/- to set the wavelength, and
MAX/MIN twice to display the offsets. Note them down.
(you can also re-enter or adjust known offsets at this point)
Required are laser light sources with accurate, calibrated
wavelengths and good power stability, a power meter with
appropriate calibrated wavelengths, singlemode test leads, an
anti-tamper label, and a 0.1” programming jumper. Check the
calibration certificates on your reference equipment, to ensure
current validity.
22
■ CALIBRATION & MAINTENANCE
■ Measure and record the source power using the reference Maintenance
meter
CAUTION! Do not open unless the warranty has expired, you are
authorised to do so, and you have a static protected work
station. Opening the unit will invalidate any warranty claim.
There are no internal user adjustable components, fuses, or
calibration features.
■ Transfer the same power level to the meter to be calibrated,
set MAX/MIN to display power, then +/- to adjust the
reading to match the noted reference reading. Note: The
optical power is measured only when entering this mode. It
is not continuously updated.
The optical sensor / connector assembly is not user serviceable.
Opening the instrument:
■ Set MAX/MIN to read and note the new stored calibration
offsets, and then SET to store and exit, or CANCEL to
abandon and exit
■ Use static protected procedures
■ Remove the batteries, and leave the battery cover open.
■ Pull open the optical connector covers.
■ Go back and check the source power with the reference
meter, to ensure source drift is within limits.
■ Place the instrument face down on a soft mat, and undo the
■ When calibration is complete, remove the calibration shunt,
and place an anti-tamper label over the hole in the battery
compartment.
6 screws in the rear housing.
■ The instrument can now be gently pulled apart.
■ The instrument will come into two halves joined by a ribbon
cable. The optical section is located in the bottom half, with
the microprocessor, supply, calibration constants and
controls in the top half.
■ Do no forget to update your calibration records, and
schedule the next due date.
N3970A UM-1
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■ CALIBRATION, MAINTENANCE & INSTRUMENT RETURNS
■ Hinged display cover removal can be done at this point.
Before returning equipment for repair or calibration, please
check with your local Agilent Technologies Service Center
(see page 3 Service and Support) to obtain a tracking number
and shipping details. If the instrument is being returned for
calibration, please include a purchase order.
■ The ribbon connector can be disengaged to completely
separate the instrument halves.
■ Further dis-assembly from this stage should be easily
apparent to a technician.
Please state clearly the problem requiring attention.
■ Re-assembly is the reverse of the previous procedure.
Ensure that the ribbon cable connectors are properly
secured so they cannot shake loose. This will be either a
moulded rubber retainer, or adhesive tape.
Please include your contact email, phone and fax number, and
return shipping details.
If the goods are under warranty, it would be helpful to include
the original order / contract details.
General electrical parameters are as follows: Vss to GND = 3V3,
-Vss = -3V3, battery power down current about 0.2 mA, active
current about 25 mA.
If the goods are not under warranty, work will only proceed when
a repair order has been issued. Please either include a repair
order with the equipment, or request that a quotation be
provided.
24
■ SPECIFICATIONS - DEFINITION OF TERMS
Power Range
The range of input powers for which the instrument can be used.
Maximum Input Power
The input power is not to be exceeded to avoid destroying the instrument.
Uncertainty at
reference conditions
The uncertainty for the specified set of reference conditions, including all uncertainties
in the calibration chain from the national laboratory to the test meter (connectors and
patchcords must be absolutely clean and undamaged). Reference conditions are the
conditions during the spectral responsivity calibration.
Total Uncertainty
The uncertainty for a specified set of operating conditions, including noise and drift
(connectors and patchcords must be absolutely clean and undamaged).
Autotest sensitivity
The power level below which the Autotest does not work.
N3970A UM-1
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■ SPECIFICATIONS & ORDERING INFORMATION
Sensor Element
InGaAs
Wavelength Range
Calibration Wavelengths
Power Range
850-1650 nm
8501, 1300, 1310, 1550 nm
+5 to –60 dBm (850 nm)
+5 to –70 dBm (other wavelengths)
+15 dBm
Maximum Input Power
2
Uncertainty at reference conditions
0.13 dB ( 3%)
0.3 dB ( 7%) 2pW
-40 dBm (850 nm)
3
Total Uncertainty
Autotest sensitivity (typical) 4
-50 dBm (other wavelengths)
250 hours
9/125 µm to 62.5/125 µm
Non-Contact, Removable Connector Adaptors
LCD, 4 digits
Operating Time
Applicable Fiber Type
Optical Input
Display Type
Display Resolution
Display Units
0.01dB, 3 digits in linear mode
dB, dBm, nW, µW, mW
26
■ SPECIFICATIONS & ORDERING INFORMATION
1: All specifications at 850 nm are typical.
2: 23 3oK, -10 to –30 dBm, calibration wavelengths 2nm, fiber type standard SMF, connector type ceramic FC / PC, at day
of calibration.
3: includes uncertainty contributions due to: uncertainty at reference conditions, varying optical connector types, fiber types up
to 62.5 µm core diameter and numerical aperture up to 0.3, operation within power range and within operating temperature range.
4: Tested at room temperature, using an optical attenuator.
Size:
Weight:
190 x 130 x 70 mm, 7.9” x 5.4 x 2.9
500 gm, 1.1 lb. Shipping 2 Kg, 4.4 lb
Operating / storage: -10 to 55°C / -25 to 70°C
Power:
2 alkaline C cells (7.6 A/hr) or external 9V DC with 2.5mm +ve pin.
Selectable auto-off, low battery indicator, back lit display.
100 - 9999 Hz 1%.
Recording feature for stability testing.
For setting advanced functions.
Tone detection:
Max / min:
Hidden keypad:
Damage level:
Case:
RS232:
Calibration:
Printing:
> 5 dB above max reading.
Polycarbonate, 1 meter drop tested.
3.5 mm jack connector, 0.3 - 56 Kbaud, default 9.6 K.
Performed without opening instrument.
Not supported.
N3970A UM-1
27
■ SPECIFICATIONS & ORDERING INFORMATION
ORDERING INFORMATION
Instrument
N3970A Optical Power Meter
Agilent service Part No.
N3970-63240
Description
ST
SC
FC
N3970-63246
N3970-63251
Standard accessories:
Included with instrument: FC, ST, SC optical connector, manual,
batteries, NATA traceable calibration certificate, carry strap,
pouch, protective holster & RS 232 cable.
Connector options: This instrument is equipped with
interchangeable optical connector adaptors, and works with
both PC and APC connectors.
Optional accessories:
Agilent Part No.
Description
Power Supply 9V DC
N3979A
Australian and international patents
The N3974A Optical Power Meter is supplied with a straight
contact output connector interface. To connect to the
instrument, you must attach your connector interface (see list
connector interfaces below) to the interface adaptor, then
connect your cable.
28
■ PERFORMANCE TEST
The procedures in this section test the performance of the
instrument. The complete specifications to which the Agilent
N3970A Optical Power Meter is tested are given on pages 26-28.
All tests can be performed without access to the interior of the
instrument. The test equipment given corresponds to tests
carried out with Diamond HMS-10 connectors and FC/PC
connectors on the DUT (devise under test).
Equipment Required
Equipment required for the performance test is listed in the table
on page 30. Any equipment that satisfies the critical
specifications of the equipment given in the table may be
substituted for the recommended models.
N3970A UM-1
29
■ PERFORMANCE TEST
Table 1 Required Equipment
Instrument/Accessory
Recommended
Model
Required
Characteristics
Alternative
Models
Lightwave Multimeter
Interface Module (one
channel)
8163A
81618A
8164A, 8166A
81619A
Optical Head
81624A#C01
81654A
Laser Souce 1310/1550 nm
1305 25nm
81657A or
1550 30nm
81650A & 81651A
or
Short Term Stability< 0.005 dB
81655A and 81656A
Optical Attenuator
8156A#101
Attenuation >50 dB
Return Loss >26 dB
Repeatability < 0.01 dB
Connector Interfaces
Connector Adaptors
Singlemode Fiber
81000AI (3ea)
81000FA
81101AC
81101PC
N3970-63251
81101FC
FC Connector Adaptor for
N3970A
Note: Instead of 8163A, 81618A, 81624A #C01 and 81654A also the older but discontinued equipment 8153A, 81533B, 81524A
#C01 and 81554SM together with 81210LI #011 and 81310LI # 011 can be used.
30
■ PERFORMANCE TEST
Test Record
Instrument Specification
Results of the performance test may be tabulated on the Test Specifications are the performance characteristics of the
Record provided at the end of the test procedure. It is instrument that is certified. These specifications, listed on page
recommended that you fill out the Test Record and refer to it 26, are the performance standards or limits against which the
while doing the test. Since the test limits and setup information Agilent N3970A can be tested.
are printed on the Test Record for easy reference, the record can
also be used as an abbreviated test procedure (if you are already
Any changes in the specifications due to manufacturing
familiar with the test procedures). The Test Record can also be
changes, design, or traceability to the National Institute of
used as a permanent record and may be reproduced without
Standards and Technology (NIST), will be covered in a manual
written permission from Agilent Technologies.
change supplement, or revised manual. Such specifications
supersede any that were previously published.
Test Failure
If the Agilent N3970A fails any performance test, return the
instrument to the nearest Agilent Technologies Sales/Service
Office for repair (see page 3).
N3970A UM-1
31
■ PERFORMANCE TEST
Performance Test
Total Uncertainty / Accuracy Test
The performance test given in this section includes the
Total Uncertainty/Accuracy Test. Perform each step in the
order given, using the corresponding test equipment.
1. Make sure that you satisfy the environmental conditions.
2. Make sure all your connectors are clean.
3. Connect the equipment as shown in figure below.
Note Make sure that all optical connections are dry and
clean. DO NOT USE INDEX MATCHING OIL. For
cleaning, use the cleaning instructions given in "Cleaning
Procedures" on page 41.
Make sure that all patchcords are fixed to the table so that
they won't move during measurements.
Make sure that the ambient conditions are in the
following ranges:
temperature
Relative humidity 45 to 75 %
23ºC 3K
Test setup for the Uncertainty Test Reference Measurement
Make sure that all Patchcords are fixed to the table and
won't move during measurements.
32
■ PERFORMANCE TEST
4. Switch on the instruments.
until PERM is shown in the display.
Set the DUT to "dBm"
f. Make sure that all the instruments are warmed up.
5. Make the reference measurement.
a. Switch on the lightwave multimeter.
b. Configure the laser source.
■
■
Set the laser source attenuation to 0 dB
Set the wavelength to 1310 nm
■
a. Enable the laser source and the attenuator output.
b. Change the attenuation of the attenuator until the optical
power meter displays -3.00 dBm.
■ Note the actual (displayed) wavelength of the laser source in
the test report
Note In some cases the laser source will not be powerful
enough to give -3.00 dBm. In such case, set the attenuator to
0 dB and correct the appropriate values in the test report.
■ Note the setting of the attenuator for setting 1 in the test report
c. Change the attenuation of the attenuator until the optical
power meter displays -20.00 dBm.
■ Note the setting of the attenuator for setting 2 in the test report
d. Change the attenuation of the attenuator until the optical
power meter displays -30.00 dBm.
■ Note the setting of the attenuator for setting 3 in the test report
e. Change the attenuation of the attenuator until the optical
power meter displays -50.00 dBm.
c. Switch on the attenuator.
■
Set the wavelength to the wavelength of the laser source
in the test report
d. Configure the optical head and interface module.
■
■
■
■
■
Set the unit to dBm
Set the averaging time, T, to 100 ms
Set AUTO ranging on
Set the wavelength to the wavelength of the laser source
With the laser source and attenuator disabled, zero
the power meter
e. Switch on the N3970A (DUT) for permanent operation, by
holding the POWER key down for 3 seconds during turn-on
■ Note the setting of the attenuator for setting 4 in the test report
N3970A UM-1
33
■ PERFORMANCE TEST
6. Measure the DUT.
c. Select the correct wavelength on the DUT.
d. Set the attenuator to its value for setting 1.
a. Make sure the N3970A (DUT) has warmed up
b. Connect the attenuator output cable to the DUT as
shown in figure below.
■ Note the displayed power level of the DUT in the test record
e. Set the attenuator to its value for setting 2.
■ Note the displayed power level of the DUT in the test record
f. Set the attenuator to its value for setting 3.
■ Note the displayed power level of the DUT in the test record
g. Set the attenuator to its value for setting 4.
■ Note the displayed power level of the DUT in the test record
7. Repeat from list item 4 to list item 6 at 1550 nm.
Test Setup for the DUT Measurement
34
■ PERFORMANCE TEST
Model N3970A Optical Power Meter
Date
o
Serial No.
Options
Ambient Temperature
Relative Humidity
Line Frequency
C
%
Firmware Rev.
Hz
Test Facility
Customer
Report No
Performed by
Special Notes
N3970A UM-1
35
■ PERFORMANCE TEST
Description
1. Lightwave Multimeter
Model No.
8163A
Trace No
Cal. Due Date
2. Light Source 1310/1550 nm
81654A
3. Optical Head
81624A #C01
81618A
4. Optical Head Interface Module
5. Optical Attenuator
8156A #101
6.
7.
8.
9.
10.
Accessories
#Product
Singlemode Fiber
1 81101AC
1 81101PC
3 81000AI
Connector Interfaces
Connector Adaptors
1
N3970-63251
1 81000FA
36
■ PERFORMANCE TEST
Model N3970A Optical Power Meter
Total Uncertainty/Accuracy Test
Test Wavelengths = 1300 nm and 1310 nm
Report No.
Date
Source Wavelength =
nm
Setting
Number
Reference
(8163A Display)
Attenuator
Setting
Minimum Spec.
(-0.3 dB of Ref.)
N3970A, DUT
Measurement results
Maximum Spec.
(+0.3 dB of Ref.)
1
2
3
4
-3.00 dBm
-20.00 dBm
-30.00 dBm
-50.00 dBm
dB
dB
dB
dB
-3.30 dBm
dBm
-2.70 dBm
-19.70 dBm
-29.70 dBm
-49.70 dBm
-20.30 dBm
-30.30 dBm
-50.30 dBm
dBm
dBm
dBm
Measurement Uncertainty
dB
N3970A UM-1
37
■ PERFORMANCE TEST
Model N3970A Optical Power Meter
Report No.
Date
Total Uncertainty/Accuracy Test
Test Wavelengths = 1550 nm
Source Wavelength =
nm
Setting
Number
Reference
(8163A Display)
Attenuator
Setting
Minimum Spec.
(-0.3 dB of Ref.)
N3970A, DUT
Measurement results
Maximum Spec.
(+0.3 dB of Ref.)
1
2
3
4
-3.00 dBm
-20.00 dBm
-30.00 dBm
-50.00 dBm
dB
dB
dB
dB
-3.30 dBm
dBm
-2.70 dBm
-19.70 dBm
-29.70 dBm
-49.70 dBm
-20.30 dBm
-30.30 dBm
-50.30 dBm
dBm
dBm
dBm
Measurement Uncertainty
dB
38
■ CLEANING INFORMATION
The following Cleaning Instructions contain some general Safety Precautions
safety precautions, which must be observed during all phases of
cleaning. Consult your specific optical device manuals or
guides for full information on safety matters.
Please follow the following safety rules.
■ Do not remove instrument covers when operating.
■ Ensure that the instrument is switched off throughout the
cleaning procedures.
■ Use of controls or adjustments or performance of procedures
other than those specified may result in hazardous radiation
exposure.
■ Make sure that you disable all sources when you are cleaning
any optical interfaces.
■ Under no circumstances look into the end of an optical
device attached to optical outputs when the device is
operational. The laser radiation is not visible to the human
eye, but it can seriously damage your eyesight.
■ To prevent electrical shock, disconnect the instrument from
the mains before cleaning. Use a dry cloth, or one slightly
Please try, whenever possible, to use physically contacting
connectors, and dry connections.
Clean the connectors, interfaces, and bushings carefully after use.
If you are unsure of the correct cleaning procedure for your
optical device, we recommend that you first try cleaning a
dummy or test device.
Agilent Technologies assume no liability for the customer's
failure to comply with these requirements.
For more information about Cleaning Instruments, please
consult the Pocket Guide "Cleaning Procedures for Lightwave
Test and Measurement Equipment" (Agilent P/N 5963-3538F).
If you do not have a copy of this pocket guide, Agilent will
provide you with one free of charge.
N3970A UM-1
39
■CLEANING INFORMATION
dampened with water, to clean the external case parts. Do not inaccurate and non-repeatable. Cleaning is, therefore, an
attempt to clean internally.
essential yet difficult task. Unfortunately, when comparing most
published cleaning recommendations, you will discover that
they contain several inconsistencies. In this section, we want to
suggest ways to help you clean your various optical devices,
and thus significantly improve the accuracy and repeatability of
your lightwave measurements.
Do not install parts or perform any unauthorised modification to
optical devices.
* Refer servicing only to qualified and authorised personnel.
Why is it important to clean optical devices ?
In transmission links optical fiber cores are about 9 µm
(0.00035") in diameter. Dust and other particles, however, can
range from tenths to hundredths of microns in diameter. Their
comparative size means that they can cover a part of the end of
a fiber core, and as a result will reduce the performance of your
system.
Furthermore, the power density may burn dust into the fiber and
cause additional damage (for example, 0 dBm optical power in
a single mode fiber causes a power density of approximately 16
million W/m2). If this happens, measurements become
40
■ CLEANING PROCEDURES
Keep your dust and shutter caps on when your instrument is not 1. Moisten a new cotton swab with isopropyl alcohol.
in use. This should prevent it from getting too dirty. If you must
2. Clean the interface by rubbing the cotton swab over the
clean such instruments, please refer the instrument to the
surface using a small circular movement.
skilled personnel of Agilent's service team.
3. Take a new, dry soft tissue and remove the alcohol, dissolved
sediment and dust, by rubbing gently over the surface using
Preferred Procedure
a small circular movement.
Use the following procedure on most occasions.
4. Blow away any remaining lint with compressed air.
1. Blow away any dust or dirt with compressed air.
If this is not sufficient, then
a. Clean the interface by rubbing a new, dry cotton swab
over the surface using a small circular movement.
b. Blow away any remaining lint with compressed air.
Procedure for Stubborn Dirt
Use this procedure when there is greasy dirt on the interface,
and using the procedure for light dirt is not sufficient. Using
isopropyl alcohol should be your last choice for recessed lens
interfaces because of the difficulty of cleaning out any dirt that
is washed to the edge of the interface.
N3970A UM-1
41
■ DISCLAIMER & WARRANTY
Information in this manual is given in good faith for the benefit
of the user. It cannot be used as the basis for claims against
Agilent Technologies or its representatives, if accidental
damage or inconvenience results from use or attempted repair
of the equipment.
Agilent Technologies products are guaranteed against defective
components and workmanship for a period of 3 years from the
date of delivery, unless specifically stated in the original
purchase contract or agreement. This warranty excludes optical
connectors or incorrect use. Opening the instrument will
invalidate the warranty. Liability is limited solely to repair of the
equipment.
42
■ NOTES
N3970A UM-1
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■ NOTES
44
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