The input terminals for this product are classified as Measurement Category None.
Keysight has designed and tested the FieldFox in accordance with IEC Publication 61010-1Safety Requirements for Electrical Equipment for Measurement, Control and Laboratory Use, and the FieldFox is supplied in a safe condition. The FieldFox is also designed for use in Installation Category II and pollution Degree 2 per IEC 61010-1. Read the following safety notices carefully before you start to use this FieldFox to ensure safe operation and to maintain the product in a safe condition.
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The input terminals for this product are classified as Measurement Category None. |
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No operator serviceable parts inside except for the lithium-ion battery. Refer servicing to qualified personnel. To prevent electrical shock do not remove covers. |
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If this product is not used as specified, the protection provided by the equipment could be impaired. This product must be used in a normal condition (in which all means for protection are intact) when attached to the AC–DC adapter. |
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The unit may be used only in the operating conditions and positions specified by the manufacturer. |
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Do not install substitute parts or perform any unauthorized modification to the product. Return the product to Keysight Technologies or a designated repair center for service to ensure that safety features are maintained. |
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Applicable local or national safety regulations and rules for the prevention of accidents must be observed in all work performed. |
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Ensure that the connections with information technology equipment comply with IEC950 I EN60950. |
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Observe all ratings and markings of the instrument before connecting the instrument. Maximum Input Voltages and Power:
RF Output Connector: 50V DC, +23 dBm RF Ext Trig/Ref Connector: 5.5 V DC
RF Input: +27 dBm RF, ±50 VDC Max. (N991xA/B, N9925B, N9926A, N9928A, N993xA/B) +23 dBm RF, ±50 VDC Max. (N9923A, N9923AN) +25 dBm RF, ±40 VDC Max. (N995xA/B, N996xA/B) DC Input: 19VDC, 4ADC |
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When performing a measurement, ensure that the right safety and performance ratings of the instrument and accessories are used.
Do not expose the circuit or operate the instrument without its cover or while power is being supplied.
Do not operate the instrument in any environment at risk of explosion. |
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Only Keysight approved accessories shall be used. |
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Cleaning connectors with alcohol shall only be done with the instruments power cord removed, and in a well-ventilated area. Allow all residual alcohol moisture to evaporate and the fumes to dissipate prior to energizing the instrument. |
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The power cord and connectors shall be compatible with the connector used in the premise electrical system. Failure to ensure adequate earth grounding by not using the correct components may cause product damage and serious injury. |
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The measuring terminals on this instrument are designed to be used with external signals described in Measurement Category NONE, but NOT with external signals described in Categories II, III, and IV. The input of this instrument cannot be connected to the mains. |
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It is not recommended to operate the FieldFox when it is laying on its back on a table top or other flat surface, with the kickstand folded in. The cooling is less effective when the FieldFox is placed lying down flat on back of the instrument. |
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Use original packaging or comparable for shipping or transporting the instrument.
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Use only the designated AC/DC adapter supplied with the instrument.
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Use only the designated power cord supplied with the AC/DC adapter.
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Operated at an ambient temperature: 0 to 40°C; full power rating; derate linearly at a rate of 3 watts per degree C, from 90W at 40°C to 45W at 55°C, 30W at –20°C.
Input: 100-240 VAC, 1.5-0.75A, 50-60 Hz Output: 15 VDC, 6A |
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To prevent electrical shock, disconnect the AC to DC adapter from the mains before cleaning. Use a dry cloth or one slightly dampened with water to clean the external case parts. Do not attempt to clean internally. |
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When the FieldFox is connected to the AC/DC adapter, position the adapter so the power cord is readily accessible. The power cord is the disconnecting device. It removes main power to the AC/DC adapter. The FieldFox front panel switch is only for the DC power within the instrument, and not for the AC/DC adapter. Alternately, an AC switch or circuit breaker (which is readily identifiable and is easily reached by the operator) may be installed and used as a disconnecting device to remove mains power from the AC/DC adapter. |
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To avoid overheating, always disconnect the FieldFox from the AC/DC adapter before storing the FieldFox in the backpack.
If you prefer to leave the FieldFox connected to the AC/DC adapter while inside the backpack, you can disconnect the AC/DC adapter from its AC power source to prevent overheating. |
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Safety of any system incorporating the equipment is the responsibility of the assembler of the system.
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This is a Safety Protection Class I Product (provided with a protective earthing ground incorporated in the power cord). The mains plug shall only be inserted in a socket outlet provided with a protective earth contact. Any interruption of the protective conductor inside or outside of the product is likely to make the product dangerous. Intentional interruption is prohibited. |
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The AC/DC adapter has an auto–ranging line voltage input – be sure the supply voltage is within the specified range. |
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The AC/DC adapter is for indoor use only. |
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Never use a modified or damaged charger. Use the original AC–DC adapter ONLY.
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The AC/DC adapter is designed for use in Installation Category II and Pollution Degree 2 per IEC 61010-1. |
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The instrument can operate with mains supply voltage fluctuations up to ±10% of the nominal voltage.
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Samples of this product have been type tested in accordance with the Keysight Environmental Test Manual and verified to be robust against the environmental stresses of Storage, Transportation and End-use; those stresses include but are not limited to temperature, humidity, shock, vibration, altitude and power line conditions. Test Methods are aligned with IEC 60068-2 and levels are similar to MIL-PRF-28800F Class 3. |
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If charging batteries externally, use the optional external charger available from Keysight, or another SMBus charger of level II or higher.
Never use a non–SMBus charger because the battery issues commands over the SMBus to the charger to control the charge rate and voltage.
Never use a modified or damaged charger. |
| External AC/DC power supply, U.S. FCC compliance | Meets the required verification equipment authorization rules.
This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. |
Lithium battery packs may get hot, explode, or ignite and cause serious injury if exposed to abuse conditions.
Lithium battery (High Capacity): N9910X-876 (battery Keysight part number: 1420-0937) is used to provide power to a family of portable microwave test instruments produced by Keysight Technologies. Be sure to follow these safety warnings:
| External battery, U.S. FCC compliance | Battery storage: |
The only instructions related to storage have to do with temperature and are listed below “Temperature (1 month): -20°C to +45°C “Temperature (6 month): -20°C to +40°C “Temperature (12 month): -20°C to +35°C |
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| Rating: | 10.8V 6400mAh 70Wh |
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Lithium–ion batteries:
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Do not connect the positive terminal and negative terminal of the battery to each other with any metal object (such as wire). |
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Do not carry or store the battery with necklaces, hairpins, or other metal objects. |
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Do not pierce the battery with nails, strike the battery with a hammer, step on the battery, or otherwise subject it to strong impacts or shocks. |
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Do not solder directly onto the battery. |
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Do not expose the battery to water or salt water, or allow the battery to get wet. |
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Do not disassemble or modify the battery. The battery contains safety and protection devices, which if damaged, may cause the battery to generate heat, explode, or ignite. |
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Do not place the battery in direct sunlight, or use or store the battery inside cars in hot weather. Doing so may cause the battery to generate heat, explode, or ignite. Using the battery in this manner may also result in a loss of performance and a shortened life expectancy. |
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There is a danger of explosion if the battery is incorrectly replaced. Replace only with the same or equivalent type of battery recommended. Discard used batteries according to manufacturer’s instructions. |
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If you are charging the batteries internally, even while the FieldFox is powered off, the FieldFox may become warm. Allow for proper ventilation.
Do NOT run the FieldFox with the vents blocked or in the carrying case. |
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Do not discharge the battery using any device except the FieldFox or the external battery charger (N9910X–872). When the battery is used in a device other than those specified, it may damage the battery or reduce its life expectancy. If the device causes an abnormal current to flow, it may cause the battery to become hot, explode, or ignite and cause serious injury.
The external battery charger discharges during recalibration. |
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For a Korean battery safety consideration translation, refer to Appendix D:, “Korean Battery Safety Translation” in the C-Series N9915-90020 (Unabridged) User's Guide. |
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For a Russian battery safety consideration translation, refer to Appendix E:, “Russian Battery Safety Translation” in the C-Series N9915-90020 (Unabridged) User's Guide. |
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The external battery is not rated for use in a wet location. Do not use the external battery in a wet location. |
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Lithium–ion batteries:
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Do not connect the positive terminal and negative terminal of the battery to each other with any metal object (such as wire). |
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Do not carry or store the battery with necklaces, hairpins, or other metal objects. |
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Do not pierce the battery with nails, strike the battery with a hammer, step on the battery, or otherwise subject it to strong impacts or shocks. |
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Do not solder directly onto the battery. |
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Do not expose the battery to water or salt water, or allow the battery to get wet. |
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Do not disassemble or modify the battery. The battery contains safety and protection devices, which if damaged, may cause the battery to generate heat, explode, or ignite. |
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Do not place the battery in direct sunlight, or use or store the battery inside cars in hot weather. Doing so may cause the battery to generate heat, explode, or ignite. Using the battery in this manner may also result in a loss of performance and a shortened life expectancy. |
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There is a danger of explosion if the battery is incorrectly replaced. Replace only with the same or equivalent type of battery recommended. Discard used batteries according to manufacturer’s instructions. |
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If you are charging the batteries internally, even while the FieldFox is powered off, the FieldFox may become warm. Allow for proper ventilation. |
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Do not discharge the battery using any device except the FieldFox or the external battery charger (N9910X–872). When the battery is used in a device other than those specified, it may damage the battery or reduce its life expectancy. If the device causes an abnormal current to flow, it may cause the battery to become hot, explode, or ignite and cause serious injury. |
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For a Korean battery safety consideration translation, refer to Appendix D:, “Korean Battery Safety Translation” in the C-Series N9915-90020 (Unabridged) User's Guide. |
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For a Russian battery safety consideration translation, refer to Appendix E:, “Russian Battery Safety Translation” in the C-Series N9915-90020 (Unabridged) User's Guide. |
“Battery Protective Functions (N9910X-876)”
“Battery Protective Functions (N9910X-870)”
The following protective functions are designed into the lithium-ion rechargeable battery system used in FieldFox.
The protective functions can be divided between two categories: active and passive. Active protection refers to the type of protection that depends on at least two or more protection devices working together to enable the protection Passive protection refers to the type of protection that is always enabled independent of any other protection device.
Primary Overcharge Voltage: This prevents the battery from being charged if the voltage across any cell exceeds approximately 4.25 V per cell. Once the overcharge protection is tripped, the voltage across each cell must drop below approximately 4.10 V to reset the protection and permit charging.
Overdischarge Voltage: This prevents the battery from discharging if the voltage across any cell drops below approximately 2.5 V. Once the overdischarge voltage protection is tripped, the voltage across each cell must be charged to approximately 3 V to reset the protection and permit discharging.
Primary Overcharge Current: This prevents the battery from being charged if the average charging current reaches or exceeds 3.3A for a time period of 5 seconds or more.
Primary Overdischarge Current: This prevents the battery from being discharged if the average current out of the battery reaches or exceeds 7A for a time period of 5 seconds or more. This protection can be reset by removing the load.
Short Circuit Protection: This prevents the battery from being charged or discharged and protects against damage or lost data if the current ins or out of the battery reaches or exceeds 33.3A for a time period of 274.5 microseconds or more. This protection can be reset by removing the load.
Overtemperature Charging: The system microcontroller prevents the battery from being charged if the cell temperature exceeds 48C. Once the overtemperature charging protection is tripped, the cell temperature has to drop to or below 43C to reset the protection and permit charging.
Overtemperature Discharging: The system microcontroller prevents the battery from being discharged if the cell temperature exceeds 67C. Once the overtemperature discharging protection is tripped, the battery is automatically shut off which results in turning off the instrument as well.
Reverse Charging: A reverse protection diode prevents against damage or lost data due to a reverse charge polarity applied to the battery terminals.
Primary Overtemperature: The maximum operating temperature of this fuse is 85C. An overtemperature cutout permanently opens at 85C with no recovery.
Secondary Overtemperature: A second PTC polyfuse built into each Li-ion cell will open up and limit current flow as a function of very high temperatures.
Tertiary Overtemperature: A current interrupt device (CID) within each Li-ion cell will permanently open up when . As each cell fuse is permanently interrupted, overall battery performance will become severely degraded, up to and including disabling the battery.
The following protective functions are designed into the lithium-ion rechargeable battery system used in FieldFox.
The protective functions can be divided between two categories: active and passive. Active protection refers to the type of protection that depends on at least two or more protection devices working together to enable the protection Passive protection refers to the type of protection that is always enabled independent of any other protection device.
Primary Overcharge Voltage: This prevents the battery from being charged if the voltage across any cell exceeds approximately 4.35 V per cell. Once the overcharge protection is tripped, the voltage across each cell must drop below approximately 4.15 V to reset the protection and permit charging.
Secondary Overcharge Voltage: This is a one-time, permanent protection that is triggered when the voltage across any cell exceeds approximately 4.45 V. Once this protection is tripped, the battery can no longer be used and must be replaced.
Overdischarge Voltage: This prevents the battery from discharging if the voltage across any cell drops below approximately 2.6 V. Once the overdischarge voltage protection is tripped, the voltage across each cell must be charged to approximately 3 V to reset the protection and permit discharging.
Primary Overcharge Current: This prevents the battery from being charged if the average charging current reaches or exceeds 3.5A for a time period of 120 seconds or more.
Secondary Overcharge Current: This prevents the battery from being charged if the charging current reaches or exceeds 4A+/–20% for a time period of 20 milliseconds or more.
Primary Overdischarge Current: This prevents the battery from being discharged if the average current out of the battery reaches or exceeds 5A for a time period of 120 seconds or more. This protection can be reset by removing the load.
Secondary Overdischarge Current: This prevents the battery from being discharged if the current out of the battery reaches or exceeds 6A for a time period of 20 milliseconds or more. This protection can be reset by removing the load.
Short Circuit Protection: This prevents the battery from being charged or discharged and protects against damage or lost data if the current in or out of the battery reaches or exceeds 12.5A for a time period of 183 microseconds or more. This protection can be reset by removing the load.
Overtemperature Charging: The system microcontroller prevents the battery from being charged if the cell temperature exceeds 46C. Once the overtemperature charging protection is tripped, the cell temperature has to drop to or below 45C to reset the protection and permit charging.
Overtemperature Discharging: The system microcontroller prevents the battery from being discharged if the cell temperature exceeds 65C. Once the overtemperature discharging protection is tripped, the battery is automatically shut off which results in turning off the instrument as well.
Reverse Charging: A reverse protection diode prevents against damage or lost data due to a reverse charge polarity applied to the battery terminals.
Primary Overtemperature: A PTC (positive temperature coefficient) polyfuse in series between the Li-ion cells and the charging and discharging transistors will open up and limit current flow to the battery terminals as a function of very high temperatures. This protection is resettable once the overstress condition is removed.
Secondary Overtemperature: A second PTC polyfuse built into each Li-ion cell will open up and limit current flow as a function of very high temperatures.
Tertiary Overtemperature: A current interrupt device (CID) within each Li-ion cell will permanently open up when the temperature reaches 95C. As each cell fuse is permanently interrupted, overall battery performance will become severely degraded, up to and including disabling the battery.
Overcurrent Fuse: This is a one-time blow fuse with a rated current of 12A.
Refer to battery manufacture Safety Data Sheet (SDS) for safe handling and disposal information. Battery SDS's are located at: https://regulations.about.keysight.com/msds/default.htm
Batteries are generally subject to transportation regulations, refer to the battery Safety Data Sheet (SDS) and contact your shipping department for transportation requirements.
Refer to the FieldFox Specifications in Appendix B:, “Specifications/Data Sheet” in the C-Series N9915-90020 (Unabridged) User's Guide.
The FieldFox allows you to use either the lithium-ion battery or the AC/DC adapter - both are included.
The FieldFox was constructed in an ESD protected environment. This is because most of the semiconductor devices used in this instrument are susceptible to damage by static discharge.
Static charges are generated in numerous ways, such as simple contact, separation of materials, and normal motions of persons working with the FieldFox. To prevent instrument damage, practice industry accepted techniques for handling static sensitive devices when using the FieldFox.
Very often, coaxial cables and antennas also build up a static charge, which, if allowed to discharge by connecting to the FieldFox, may damage the instrument input circuitry. To avoid such damage, it is recommended to dissipate any static charges by temporarily attaching a short to the cable or antenna prior to attaching to the instrument.
The table below lists the definitions of markings that may be on or with the product. Familiarize yourself with each marking and its meaning before operating the instrument.
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All labels and symbols may not apply to the instrument. |
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This symbol marks the standby position of the power line switch. |
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This symbol marks the ON position of the power line switch. |
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This symbol marks the OFF position of the power line switch. |
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This symbol indicates that the input power required is AC. |
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This symbol indicates DC voltage |
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This symbol indicates a three-phase alternating current. |
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This symbol indicates Frame or chassis Terminal. |
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The instruction documentation symbol. The product is marked with this symbol when it is necessary for the user to refer to the instruction in the documentation. |
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This symbol indicate the presence of a Laser device. |
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This symbol indicates the surface can be hot. |
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This symbol indicated the product is sensitive to electrostatic discharge. |
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This symbol identifies the Protective Conductor terminal. |
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This symbol indicates the equipment is protected throughout by double or reinforced insulation. |
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The CE mark is a registered trademark of the European Community (if accompanied by a year, it is the year when the design was proven). It indicates that the product complies with all the relevant directives. |
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The UK conformity mark is a UK government owned mark. Products showing this mark comply with all applicable UK regulations. |
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The Keysight email address is required by EU directives applicable to our product. |
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The CSA mark is a registered trademark of the CSA International. |
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Two person lift required. |
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Canada EMC label.
Interference-Causing Equipment Standard for industrial, scientific and medical (ISM) equipment. Matériel industriel, scientifique et médical (ISM). |
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CE/ICES/ISM label. (Old mark
for reference only.)
This is a space saver label that combines three markings - CE with CAN ICES and ISM (see above) and ISM (see below). |
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This is a space saver label that combines three markings - CE with CAN ICES and ISM (see above) and ISM (see below). |
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The RCM mark is a registered trademark of the Australian Communications and Media Authority. |
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This is a space saver label that combines two markings - CAN ICES and ISM. |
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This is a symbol of an Industrial Scientific and Medical Group 1 Class A product (CISPR 11, Clause 5). |
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South Korean Certification (KC) mark. It includes the marking’s identifier code. |
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The crossed-out wheeled bin symbol indicates that separate collection for waste electric and electronic equipment (WEEE) is required, as obligated by the EU DIRECTIVE and other National legislation. Please refer to www.keysight.com/go/takeback to understand your trade-in options with Keysight, in addition to product takeback instructions. |
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China Restricted Substance Product Label. The EPUP (environmental protection use period) number in the center indicates the time period during which no hazardous or toxic substances or elements are expected to leak or deteriorate during normal use and generally reflects the expected useful life of the product. |
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Universal recycling symbol. This symbol indicates compliance with the China standard GB 18455-2001 as required by the China RoHS regulations for paper/fiberboard packaging. |
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This mark indicates product has been designed to meet the requirements of “IP x y”, where “x” is the solid particle protection and “y” is the liquid ingress protection. |
The table below lists the definitions of markings that may be on or with the product. Familiarize yourself with each marking and its meaning before operating the instrument.
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All labels and symbols may not apply to the instrument. |
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The CE marking is a registered trademark of the European Community (if accompanied by a year, it is the year when the design was proven). It indicates that the product complies with all relevant directives. |
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Eurasian Conformity Mark indicating conformance to all technical regulations of the Eurasian Customs Union. |
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Dispose of properly. Do not throw batteries away—collect as small chemical waste.
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Recycle the old battery properly. Consult local or country regulations related to disposal. |
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Keep battery away from excessive heat. Do not dispose of by burning. |
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Taiwan recycling symbol. |
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Korean Certification (KC) mark. |
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India mark from the Bureau of Indian standards. IS 13252 is the equivalent India standard to IEC 60950-1. |
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GOST, Russia’s safety and EMC mark. |
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The UL Marks are registered certification marks of Underwriters Laboratories Inc. (UL). It means that UL has tested and evaluated representative samples of that product and determined that it meets UL's safety requirements. When accompanied by a 'C' and 'US', it indicates compliance to both Canadian and US requirements. |
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Taiwan’s safety and EMC compliance mark. |
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Indicates the time period which no hazardous or toxic substance
elements are expected to leak or deteriorate during normal use.
Ten years is the expected useful life of the product.
This symbol indicates the Environmental Protection Use Period (EPUP) for the product’s toxic substances and for the China RoHS requirements. |
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The UK conformity mark is a UK government owned mark. Products showing this mark comply with all applicable UK regulations. |
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The CSA mark is a registered trademark of the CSA international. |
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Canada EMC label. Interference-Causing Equipment Standard for industrial, scientific and medical (ISM) equipment. Matériel industriel, scientifique et médical (ISM). |
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CE/ICES/ISM label. This is a space-saver label that combines three markings — CE with CAN ICES (see above) and ISM (see below). |
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The RCM Mark is a registered trademark of the Australian Communications and Media Authority. |
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This is a combined marking to indicate product compliance with the Industry Canadian Interference-Causing Equipment Standard (ICES/NMB-001). This is also a symbol of an Industrial Scientific and Medical Group 1 Class A product (CISPR 11, Clause 5). |
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This is a symbol of an Industrial Scientific and Medical Group 1 Class A product (CISPR 11, Clause 5). |
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South Korean Certification (KC) mark. It includes the marking’s identifier code. |
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Universal recycling symbol. This symbol indicates compliance with the China standard GB 18455-2001 as required by the China RoHS regulations for paper/fiberboard packaging. |
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This symbol marks the standby position of the power line switch. |
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This symbol marks the ON position of the power line switch. |
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This symbol marks the OFF position of the power line switch. |
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This symbol indicates the input power required is AC. |
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This symbol indicates DC voltage. |
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This symbol indicates a three-phase alternating current. |
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This symbol indicates frame or chassis terminal. |
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This symbol indicates the presence of a laser device. |
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This symbol identifies the Protective Conductor Terminal. |
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This symbol indicates the equipment is protected throughout by double or reinforced insulation. |
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Universal recycling symbol. This symbol indicates compliance with the China standard GB 18455–2001 as required by the China RoHS regulations for paper/fiberboard packaging. |
The table below lists the definitions of markings that may be on or with the product. Familiarize yourself with each marking and its meaning before operating the instrument.
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All labels and symbols may not apply to the instrument. |
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The UL Marks are registered certification marks of Underwriters Laboratories Inc. (UL). It means that UL has tested and evaluated representative samples of that product and determined that it meets UL's safety requirements. When accompanied by a 'C' and 'US', it indicates compliance to both Canadian and US requirements. |
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NOM Mark (Normality of Mexico) indicates that the product was tested by an accredited laboratory in Mexico and meets Mexico’s safety requirements. |
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Japan’s safety and EMC compliance mark. |
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China’s safety and EMC compliance mark. |
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Taiwan’s safety and EMC compliance mark. |
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Singapore’s safety mark. |
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Korean Certification (KC) mark. It includes the marking’s identifier code. |
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GOST, Russia’s safety and EMC mark. |
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AC (Alternating Current). |
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Direct current (DC) equipment |
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CAUTION, risk of danger, refer to safety information in manual. |
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DC connector polarity |
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Ingress Protection Code |
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Operating instructions should be considered when operating the device. |
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U.S. Energy efficiency rating |
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Eurasian Conformity Mark indicating conformance to all technical regulations of the Eurasian Customs Union. |
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UL component mark. Recognized in Canada and the United States. |
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Operation for indoors only. |
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India mark from the Bureau of Indian standards. IS 13252 is the equivalent India standard to IEC 60950-1. |
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IRAM/S-mark is the safety mark for Argentina. |
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The crossed out wheeled bin symbol indicates that separate collection for waste electric and electronic equipment (WEEE) is required, as obligated by the EU DIRECTIVE and other National legislation. Please refer to keysight.com/go/takeback to understand your Trade in options with Keysight in addition to product takeback instructions. |
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Dispose of properly |
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The UK conformity mark is a UK government owned mark. Products showing this mark comply with all applicable UK regulations. |
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The CSA mark is a registered trademark of the CSA international. |
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Canada EMC label. Interference-Causing Equipment Standard for industrial, scientific and medical (ISM) equipment. Matériel industriel, scientifique et médical (ISM). |
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CE/ICES/ISM label. This is a space-saver label that combines three markings — CE with CAN ICES (see above) and ISM (see below). |
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The RCM mark is a registered trademark of the Australian Communications and Media Authority. |
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This is a combined marking to indicate product compliance with the Industry Canadian Interference-Causing Equipment Standard (ICES/NMB-001). This is also a symbol of an Industrial Scientific and Medical Group 1 Class A product (CISPR 11, Clause 5). |
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This is a symbol of an Industrial Scientific and Medical Group 1 Class A product (CISPR 11, Clause 5). |
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South Korean Certification (KC) mark. It includes the marking’s identifier code. |
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Universal recycling symbol. This symbol indicates compliance with the China standard GB 18455-2001 as required by the China RoHS regulations for paper/fiberboard packaging. |
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This symbol marks the standby position of the power line switch. |
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This symbol marks the ON position of the power line switch. |
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This symbol marks the OFF position of the power line switch. |
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This symbol indicates the input power required is AC. |
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This symbol indicates DC voltage. |
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This symbol indicates a three-phase alternating current. |
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This symbol indicates frame or chassis terminal. |
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This symbol indicates the presence of a laser device. |
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This symbol identifies the Protective Conductor Terminal. |
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This symbol indicates the equipment is protected throughout by double or reinforced insulation. |
Keysight Technologies, Inc. certifies that this product met its published specifications at the time of shipment from the factory. Keysight Technologies, Inc. further certifies that its calibration measurements are traceable to the United States National Institute of Standards and Technology, to the extent allowed by the Institute's calibration facility, and to the calibration facilities of other International Standards Organization members.
This product has been designed and tested in accordance with accepted industry standards, and has been supplied in a safe condition. The documentation contains information and warnings that must be followed by the user to ensure safe operation and to maintain the product in a safe condition.
Should the Declaration of Conformity be required, visit:
http://www.keysight.com/go/conformity.
For more information, see “Where to Find the Latest Information”.
Complies with the essential requirements of the European EMC Directive as well as current editions of the following standards (dates and editions are cited in the Declaration of Conformity):
This ISM device complies with the Industry Canada Interference-Causing Equipment Standard (ICES-001);
Cet appareil ISM est conforme a la norme NMB-001 du Canada.
Complies with the European Low Voltage Directive
Acoustic Noise Emission |
LpA <70 dB |
Operator position |
| Normal operation position per ISO 7779 |