Provided by: nut-server_2.7.4-14ubuntu2_amd64 
NAME
nutdrv_qx - Driver for Q* protocol serial and USB based UPS equipment
NOTE
This man page only documents the hardware-specific features of the nutdrv_qx driver. For information
about the core driver, see nutupsdrv(8).
SUPPORTED HARDWARE
The nutdrv_qx driver is known to work with various UPSes from Blazer, Energy Sistem, Fenton Technologies,
General Electric, Mustek, Voltronic Power (rebranded by many, many - have I said many? - others.. Long
story short: if your UPS came with a software called Viewpower, chances are high that it works with this
driver with one of the voltronic* protocols or with the mecer one) and many others.
The NUT compatibility table lists all the known supported models. Keep in mind, however, that other
models not listed there may also be supported, but haven’t been tested.
All devices with a serial interface and many with a USB interface are supported.
EXTRA ARGUMENTS
You may need to override or provide defaults for some values, depending on the make and model of your
UPS.
The following are the ones that most likely will need changing (see ups.conf(5)):
ondelay = value
Time to wait before switching on the UPS (seconds). This value is truncated to units of 60 seconds.
Note that a value below 3 minutes, may cause earlier firmware versions to not switch on
automatically, so it defaults to 3 minutes (i.e. 180 seconds).
This option provides a default value for ups.delay.start that will then be used by the driver in the
automatic shutdown sequence (i.e. calling the driver with the -k option, calling upsdrvctl(8) with
the shutdown option or when the FSD flag is set and upsmon(8) enters its shutdown sequence): however
you can change this value ‘on the fly’ for the actual session, only for the use with instant
commands, setting ups.delay.start with upsrw(8).
offdelay = value
Time to wait before shutting down the UPS (seconds). This value is truncated to units of 6 seconds
(less than 60 seconds) or 60 seconds (more than 60 seconds). Defaults to 30 seconds.
This option provides a default value for ups.delay.shutdown that will then be used by the driver in
the automatic shutdown sequence (i.e. calling the driver with the -k option, calling upsdrvctl(8)
with the shutdown option or when the FSD flag is set and upsmon(8) enters its shutdown sequence):
however you can change this value ‘on the fly’ for the actual session, only for the use with instant
commands, setting ups.delay.shutdown with upsrw(8).
stayoff
If you set stayoff in ups.conf(5) when FSD arises the UPS will call a shutdown.stayoff shutting down
after ups.delay.shutdown seconds and won’t return (see KNOWN PROBLEMS), otherwise (standard
behaviour) the UPS will call shutdown.return shutting down after ups.delay.shutdown seconds and then
turn on after ups.delay.start seconds (if mains meanwhile returned).
protocol = string
Skip autodetection of the protocol to use and only use the one specified. Supported values: bestups,
mecer, megatec, megatec/old, mustek, q1, voltronic, voltronic-qs, voltronic-qs-hex and zinto.
Note that if you end up using the q1 protocol, you may want to give a try to the mecer, megatec and
zinto ones setting the novendor/norating flags (only one, or both).
pollfreq = value
Set polling frequency, in seconds, to reduce the data flow. Between two polling requests the driver
will do ‘quick polls’ dealing just with ups.status. The default value is 30 (in seconds).
If your UPS doesn’t report either battery.charge or battery.runtime you may want to add the following
ones in order to have guesstimated values:
default.battery.voltage.high = value
Maximum battery voltage that is reached after about 12 to 24 hours charging. If you want the driver
to report a guesstimated battery.charge, you need to specify this (see BATTERY CHARGE).
default.battery.voltage.low = value
Minimum battery voltage just before the UPS automatically shuts down. If you want the driver to
report a guesstimated battery.charge, you need to specify this (see BATTERY CHARGE).
default.battery.voltage.nominal = value, override.battery.voltage.nominal = value
Some devices show a wrong nominal battery voltage (or none at all), so you may need to override or
set a default value.
override.battery.packs = value
Some devices report a part of the total battery voltage. For instance, if battery.voltage.nominal is
24 V, but it reports a battery.voltage of around 2 V, the number of battery.packs to correct this
reading would be 12. The driver will attempt to detect this automatically, but if this fails somehow,
you may want to override this value.
runtimecal = value,value,value,value
Parameter used in the (optional) runtime estimation. This takes two runtimes at different loads.
Typically, this uses the runtime at full load and the runtime at half load. For instance, if your UPS
has a rated runtime of 240 seconds at full load and 720 seconds at half load, you would enter
runtimecal = 240,100,720,50
The first load should always be higher than the second. If you have values available for loads other
than 100 and 50 % respectively, you can use those too, but keep them spaced apart as far as
reasonably possible. Just don’t get too close to no load (prediction of runtime depends more on idle
load for the battery then).
chargetime = value
The time needed to fully recharge the battery after being fully discharged. If not specified, the
driver defaults to 43200 seconds (12 hours). Only used if runtimecal is also specified.
idleload = value
Minimum battery load used by the driver to estimate the runtime. If not specified, the driver
defaults to 10%. Only used if runtimecal is also specified.
BESTUPS, MECER, MEGATAEC, MEGATEC/OLD, MUSTEK, Q1, VOLTRONIC-QS, VOLTRONIC-QS-HEX, ZINTO PROTOCOLS
ignoresab
Some UPSes incorrectly report the ‘Shutdown Active’ bit as always on, consequently making the driver
believe the UPS is nearing a shutdown (and, as a result, ups.status always contains FSD... and you
know what this means). Setting this flag will make the driver ignore the ‘Shutdown Active’ bit.
MECER, MEGATAEC, MEGATEC/OLD, MUSTEK, ZINTO PROTOCOLS
ondelay
The acceptable range is 0..599940 seconds.
offdelay
The acceptable range is 12..600 seconds.
norating
Some UPSes will lock up if you attempt to read rating information from them. Setting this flag will
make the driver skip this step.
novendor
Some UPSes will lock up if you attempt to read vendor information from them. Setting this flag will
make the driver skip this step.
BESTUPS PROTOCOL
ondelay
The acceptable range is 60..599940 seconds.
offdelay
The acceptable range is 12..5940 seconds.
pins_shutdown_mode = value
Set shutdown mode functionality of Pin 1 and Pin 7 on the UPS DB9 communication port (Per Best
Power’s EPS-0059) to value [0..6].
Q1 PROTOCOL
ondelay
The acceptable range is 0..599940 seconds.
offdelay
The acceptable range is 12..600 seconds.
VOLTRONIC-QS, VOLTRONIC-QS-HEX PROTOCOLS
ondelay
The acceptable range is 60..599940 seconds.
offdelay
The acceptable range is 12..540 seconds.
VOLTRONIC PROTOCOL
The following options are supported only by the voltronic protocol. Not all of them are available on all
the UPSes supported by this protocol.
ondelay
The acceptable range is 0..599940 seconds.
offdelay
The acceptable range is 12..5940 seconds.
battery_number = value
Set number of batteries that make a pack to value [1..9]. This setting will change the charge and
runtime estimation reported by the UPS.
output_phase_angle = value
Changes output phase angle to the provided value [000, 120, 180, 240]°.
UPS CAPABILITY SETTINGS
reset_to_default
Reset capability options and their voltage and frequency limits to safe default values. (Doable
only when the UPS is in Standby Mode)
Note that setting this option will reset also ups.start.auto, battery.protection,
battery.energysave, ups.start.battery, outlet.0.switchable, input.transfer.high,
input.transfer.low, input.frequency.high and input.frequency.low.
These UPSes can be fine-tuned to suit your needs enabling or disabling the following options (the
driver should tell you which one the UPS is capable of on startup: the settable ones will be reported
either ar enabled or disabled in the logs):
alarm_control = string
Enable or disable alarm (BEEP!) [enabled/disabled]. Settable also ‘on the fly’ with beeper.enable
and beeper.disable instant commands.
bypass_alarm = string
Enable or disable alarm (BEEP!) at Bypass Mode [enabled/disabled].
battery_alarm = string
Enable or disable alarm (BEEP!) at Battery Mode [enabled/disabled].
bypass_when_off = string
Enable or disable bypass when the UPS is Off [enabled/disabled]. If enabled, AC will directly
provide power to connected devices when the UPS is off.
bypass_forbidding = string
Enable or disable Bypass Forbidding [enabled/disabled]. If enabled, the UPS will not transfer to
bypass mode under any condition.
converter_mode = string
Enable or disable Converter Mode [enabled/disabled]. When input frequency is within 40 Hz to 70
Hz, the UPS can be set at a constant output frequency, 50 Hz or 60 Hz. The UPS will still charge
battery under this mode.
eco_mode = string
Enable or disable ECO Mode [enabled/disabled]. When input voltage/frequency are within acceptable
range, the UPS will bypass voltage to output for energy saving. PFC and INVERTER are still active
at this mode. Settable also ‘on the fly’ with bypass.start and bypass.stop instant commands.
advanced_eco_mode = string
Enable or disable Advanced ECO Mode [enabled/disabled]. When input voltage/frequency are within
acceptable range, the UPS will bypass voltage to output for energy saving. PFC and INVERTER are
off at this mode.
battery_open_status_check = string
Enable or disable Battery Open Status Check [enabled/disabled]. If enabled, when the UPS is
turned on, it will check if the battery is connected or not.
site_fault_detection = string
Enable or disable site fault detection [enabled/disabled]. If enabled, the UPS will beep when the
input neutral and hot wires are reversed.
constant_phase_angle = string
Enable or disable Constant Phase Angle Function (output and input phase angles are not equal)
[enabled/disabled].
limited_runtime_on_battery = string
Enable or disable limited runtime on battery mode [enabled/disabled].
BYPASS MODE VOLTAGE/FREQUENCY LIMITS
Variables to fine-tune voltage and frequency limits for Bypass mode. These limits are reset to safe
default values by reset_to_default.
If AC voltage and frequency are within acceptable range, Bypass mode will be used (If the UPS is
capable of and it’s enabled).
Since these values are device-specific, if your UPS support them, you will get their settable limits
printed in the logs on startup.
max_bypass_volt = value
Maximum voltage for Bypass Mode (V).
min_bypass_volt = value
Minimum voltage for Bypass Mode (V).
max_bypass_freq = value
Maximum frequency for Bypass Mode (Hz).
min_bypass_freq = value
Minimum frequency for Bypass Mode (Hz).
OPTIONS SPECIFIC FOR P31 UPSES
The following options are available only on P31 UPSes.
work_range_type = string
Device grid working range for P31 UPSes [Appliance/UPS].
TESTING
This protocol comes with a couple of functions that are not enabled by default because of the lack of
knowledge of some part of the communication protocol used by these UPSes by your friendly
neighborhood developer. Since these functions are supposed to be queries to the UPS for some kind of
informations, they should not make your UPS go boom. So if you are brave enough to risk your UPS and
attached devices' life to help the developers, this will be very appreciated.. Do it at your own
risk.
testing
If invoked the driver will exec also commands that still need testing.
SERIAL INTERFACE ONLY
cablepower = string
By default the driver will set DTR and clear RTS (normal). If you find that your UPS isn’t detected
or the communication with the UPS is unreliable, you may try if clear DTR and set RTS (reverse), set
DTR and RTS (both) or clear DTR and RTS (none) improves this situation.
USB INTERFACE ONLY
port = string
You must set value to auto.
vendorid = regex, productid = regex, vendor = regex, product = regex, serial = regex
Select a specific UPS, in case there is more than one connected via USB. Each option specifies an
extended regular expression (see regex(7)) that must match the UPS’s entire vendor/product/serial
string (minus any surrounding whitespace), or the whole 4-digit hexadecimal code for vendorid and
productid. Try -DD for finding out the strings to match.
Examples:
• -x vendor="Foo.Corporation.*"
• -x vendorid=051d* (APC)
• -x product=".*(Smart|Back)-?UPS.*"
bus = regex
Select a UPS on a specific USB bus or group of busses. The argument is a regular expression that must
match the bus name where the UPS is connected (e.g. bus="002", bus="00[2-3]").
subdriver = string
Select a serial-over-USB subdriver to use. You have a choice between cypress, fabula, fuji, ippon,
krauler, phoenix and sgs. When using this option, it is mandatory to also specify the vendorid and
productid.
langid_fix = value
Apply the language ID workaround to the krauler subdriver. This is mandatory for some devices to work
(LDLC, Dynamix and others). You must provide value (0x409 or 0x4095), according to your device entry
in NUT hardware compatibility list (HCL).
IMPLEMENTATION NOTES
fabula subdriver
This subdriver, meant to be used with the megatec protocol, does not support the various
test.battery commands. Plus, the shutdown.return command ignores the values set in
ups.delay.start/ondelay and makes the UPS turn on the load as soon as power is back.
fuji subdriver
This subdriver, meant to be used with the megatec protocol, does not support the shutdown.stayoff
and load.off commands. Plus, the shutdown.return command ignores the values set in
ups.delay.start/ondelay and makes the UPS turn on the load as soon as power is back.
krauler subdriver
This subdriver, meant to be used with the megatec protocol, does not support the shutdown
commands, i.e.: shutdown.return, shutdown.stayoff and load.off.
UPS COMMANDS
This driver supports some instant commands (see upscmd(8)):
beeper.toggle
Toggle the UPS beeper. (Not available on some hardware)
load.on
Turn on the load immediately. (Not available on some hardware)
load.off
Turn off the load immediately (see KNOWN PROBLEMS).
shutdown.return
Turn off the load and return when power is back. Uses the timers defined by ups.delay.start and
ups.delay.shutdown.
shutdown.stayoff
Turn off the load and remain off (see KNOWN PROBLEMS). Uses the timer defined by ups.delay.shutdown.
shutdown.stop
Stop a shutdown in progress.
test.battery.start.deep
Perform a long battery test. (Not available on some hardware)
test.battery.start.quick
Perform a quick (10 second) battery test.
test.battery.stop
Stop a running battery test. (Not available on some hardware)
BESTUPS, MECER, MEGATEC, MEGATEC/OLD, MUSTEK, Q1, ZINTO PROTOCOLS
test.battery.start value
Perform a battery test for the duration of value seconds (truncated to 60 seconds) [60..5940].
VOLTRONIC POWER P98 UNITS (WITH MECER PROTOCOL)
test.battery.start value
Perform a battery test for the duration of value seconds (truncated to 60 seconds) [12..5940].
This value is truncated to units of 6 seconds (less than 60 seconds) or 60 seconds (more than 60
seconds).
VOLTRONIC PROTOCOL
The following instant commands are available for the voltronic protocol. Not all of them are available on
all the UPSes supported by this protocol.
beeper.enable
Enable the UPS beeper.
beeper.disable
Disable the UPS beeper.
test.battery.start value
Perform a battery test for the duration of value seconds [12..5940]. This value is truncated to units
of 6 seconds (less than 60 seconds) or 60 seconds (more than 60 seconds).
outlet.1.load.off
Turn off outlet 1 load immediately.
outlet.1.load.on
Turn on outlet 1 load immediately.
outlet.2.load.off
Turn off outlet 2 load immediately.
outlet.2.load.on
Turn on outlet 2 load immediately.
outlet.3.load.off
Turn off outlet 3 load immediately.
outlet.3.load.on
Turn on outlet 3 load immediately.
outlet.4.load.off
Turn off outlet 4 load immediately.
outlet.4.load.on
Turn on outlet 4 load immediately.
bypass.start
Put the UPS in ECO Mode.
bypass.stop
Take the UPS out of ECO Mode.
BATTERY CHARGE
Due to popular demand, this driver will report a guesstimated battery.charge and optionally
battery.runtime, provided you specified a couple of the EXTRA ARGUMENTS listed above.
If you specify both battery.voltage.high and battery.voltage.low in ups.conf(5), but don’t enter
runtimecal, it will guesstimate the state of charge by looking at the battery voltage alone. This is not
reliable under load, as this only gives reasonably accurate readings if you disconnect the load, let the
battery rest for a couple of minutes and then measure the open cell voltage. This just isn’t practical if
the power went out and the UPS is providing power for your systems.
battery.voltage - battery.voltage.low
battery.charge = ------------------------------------------ x 100 %
battery.voltage.high - battery.voltage.low
There is a way to get better readings without disconnecting the load but this requires one to keep track
on how much (and how fast) current is going in and out of the battery. If you specified the runtimecal,
the driver will attempt to do this. Note however, that this heavily relies on the values you enter and
that the UPS must be able to report the load as well. There are quite a couple of devices that report 0 %
(or any other fixed value) at all times, in which case this obviously doesn’t work.
The driver also has no way of determining the degradation of the battery capacity over time, so you’ll
have to deal with this yourself (by adjusting the values in runtimecal). Also note that the driver
guesses the initial state of charge based on the battery voltage, so this may be less than 100 %, even
when you are certain that they are full. There is just no way to reliably measure this between 0 and 100
% full charge.
This is better than nothing (but not by much). If any of the above calculations is giving you incorrect
readings, you are the one that put in the values in ups.conf(5), so don’t complain with the author. If
you need something better, buy a UPS that reports battery.charge and battery.runtime all by itself
without the help of a NUT driver.
NOTES FOR THE PREVIOUS USER OF MEGATEC DRIVERS
The nutdrv_qx driver having replaced the megatec ones, some configuration changes may be required by
users switching to nutdrv_qx.
Part of this, the following megatec options, in ups.conf(5), have to be changed:
battvolts
You need to use default.battery.voltage.high and default.battery.voltage.low
dtr and rts
You need to use cablepower
ignoreoff
This parameter can simply be discarded, since it was a wrong understanding of the specification.
NOTES FOR THE PREVIOUS USER OF BLAZER DRIVERS
The nutdrv_qx driver having replaced the blazer ones, some configuration changes may be required by users
switching to nutdrv_qx.
Part of this, the following blazer options, in ups.conf(5), have to be changed:
ondelay
While the previous blazer drivers expected minutes, the new nutdrv_qx driver wants seconds.
The following instant command has also been changed:
test.battery.start value
While the old blazer drivers expected a value in minutes, the nutdrv_qx driver wants a value in
seconds.
NOTES FOR THE PREVIOUS USER OF BESTUPS DRIVER
The nutdrv_qx driver having replaced the bestups one, some configuration changes may be required by users
switching to nutdrv_qx.
Part of this, the following bestups options, in ups.conf(5), are no longer supported by this driver:
nombattvolt, battvoltmult
See BATTERY CHARGE.
ID
Discarded.
NOTES FOR THE PREVIOUS USER OF VOLTRONIC DRIVERS
The nutdrv_qx driver having replaced the voltronic ones, some configuration changes may be required by
users switching to nutdrv_qx.
Part of this, the following voltronic options, in ups.conf(5), have to be changed:
ondelay
While the previous voltronic drivers expected minutes, the new nutdrv_qx driver wants seconds. It no
longer defaults to 0 minutes but to 3 minutes (i.e. 180 seconds) for compatibility with the users
switching from the old blazer drivers.
battnumb
This option has been renamed to battery_number.
The following options are no longer supported by this driver, you can now change them more conveniently
‘on the fly’ calling upsrw(8) with the appropriate NUT variable - provided that your UPS supports them.
battpacks → battery.packs
Set number of battery packs in
parallel [1..99]. This setting will
change the charge and runtime
estimation reported by the UPS.
battlow → battery.voltage.low
Set minimum battery voltage just
before the UPS automatically shuts
down. This setting will change the
charge and runtime estimation
reported by the UPS.
auto_reboot → ups.start.auto
Enable or disable auto reboot
[enabled/disabled]. If enabled, the
UPS will auto recover when AC power
returns.
battery_protection → battery.protection
Enable or disable battery deep
discharge protection
[enabled/disabled].
energy_saving → battery.energysave
Enable or disable Green power
function [enabled/disabled]. If
enabled, for energy saving, the UPS
will auto off when there is no load.
cold_start → ups.start.battery
Enable or disable Cold Start
[enabled/disabled]. If enabled, the
UPS can be turned on also if AC is
not connected to the UPS.
outlet_control → outlet.0.switchable
Enable or disable programmable
outlets control at battery mode
[enabled/disabled]. If enabled, the
UPS will cut off programmable outlets
after backup time (set through
outlet.{1,2,3,4}.delay.shutdown)
arrives. If disabled, the UPS will
provide continuous power to
programmable outlets until the
battery is running out.
max_eco_volt → input.transfer.high
Maximum voltage for ECO Mode (V). If
AC voltage is within acceptable
range, ECO mode will be used (If the
UPS is capable of and it’s enabled).
min_eco_volt → input.transfer.low
Minimum voltage for ECO Mode (V). If
AC voltage is within acceptable
range, ECO mode will be used (If the
UPS is capable of and it’s enabled).
max_eco_freq → input.frequency.high
Maximum frequency for ECO Mode (Hz).
If AC frequency is within acceptable
range, ECO mode will be used (If the
UPS is capable of and it’s enabled).
min_eco_freq → input.frequency.low
Minimum frequency for ECO Mode (Hz).
If AC frequency is within acceptable
range, ECO mode will be used (If the
UPS is capable of and it’s enabled).
outlet1_delay → outlet.1.delay.shutdown
Delay time before programmable outlet
1 shuts down the load when on battery
mode [0..59940] (seconds).
outlet2_delay → outlet.2.delay.shutdown
Delay time before programmable outlet
2 shuts down the load when on battery
mode [0..59940] (seconds).
outlet3_delay → outlet.3.delay.shutdown
Delay time before programmable outlet
3 shuts down the load when on battery
mode [0..59940] (seconds).
outlet4_delay → outlet.4.delay.shutdown
Delay time before programmable outlet
4 shuts down the load when on battery
mode [0..59940] (seconds).
batt_type → battery.type
Battery type (for P31 UPSes only)
[Li/Flooded/AGM].
KNOWN PROBLEMS
Some UPS commands aren’t supported by all models. In most cases, the driver will send a message to the
system log when the user tries to execute an unsupported command. Unfortunately, some models don’t even
provide a way for the driver to check for this, so the unsupported commands will silently fail.
Both the load.off and shutdown.stayoff instant commands are meant to turn the load off indefinitely.
However, some UPS models don’t allow this.
Some models report a bogus value for the beeper status (will always be enabled or disabled). So, the
beeper.toggle command may appear to have no effect in the status reported by the driver when, in fact, it
is working fine.
The temperature and load value is known to be bogus in some models.
VOLTRONIC-QS UNITS
Both load.off and shutdown.stayoff instant commands are known to work as expected (i.e. turn the load off
indefinitely) only if mains is present, otherwise, as soon as mains returns the load will be powered.
After issuing a shutdown.return instant command, the UPS won’t wait ondelay before powering on the load,
provided the following conditions are met:
• if the load has been previously (no matter how long before) powered off through
load.off/shutdown.stayoffand powered on through load.on/shutdown.stopand
• if AC wasn’t cut after issuing the load.off/shutdown.stayoff (i.e. the UPS didn’t turn itself off)
and
• if there’s a power outage after issuing the shutdown.return command
In this case, as soon as mains returns the load will be powered.
VOLTRONIC-QS-HEX UNITS
shutdown.return, load.off, and shutdown.stayoff instant commands are known to work as expected only if
mains is present, otherwise, as soon as mains returns the load will be powered.
UPS WARNINGS (VOLTRONIC PROTOCOL)
The UPSes supported by voltronic protocol report warnings through a 64bit flag (bit1bit2...bit63bit64)
where 1 means that a warning arose, while 0 means no warning. Since more than one warning at a time can
be signaled, and because of the limited space in the ups.alarm variable, if the length of the warnings
exceeds that of ups.alarms variable, they will be reported as bits. If you want to know the explanation
of that bit you can either watch the log or see the next table (unlisted bits equal to unknown warnings).
Table 1. UPS Warnings for voltronic UPSes
┌────┬───────────────────────────────────────┐
│ # │ Corresponding Warning │
├────┼───────────────────────────────────────┤
│ │ │
│ 1 │ Battery disconnected │
├────┼───────────────────────────────────────┤
│ │ │
│ 2 │ Neutral not connected │
├────┼───────────────────────────────────────┤
│ │ │
│ 3 │ Site fault │
├────┼───────────────────────────────────────┤
│ │ │
│ 4 │ Phase sequence incorrect │
├────┼───────────────────────────────────────┤
│ │ │
│ 5 │ Phase sequence incorrect in bypass │
├────┼───────────────────────────────────────┤
│ │ │
│ 6 │ Input frequency unstable in bypass │
├────┼───────────────────────────────────────┤
│ │ │
│ 7 │ Battery overcharged │
├────┼───────────────────────────────────────┤
│ │ │
│ 8 │ Low battery │
├────┼───────────────────────────────────────┤
│ │ │
│ 9 │ Overload alarm │
├────┼───────────────────────────────────────┤
│ │ │
│ 10 │ Fan alarm │
├────┼───────────────────────────────────────┤
│ │ │
│ 11 │ EPO enabled │
├────┼───────────────────────────────────────┤
│ │ │
│ 12 │ Unable to turn on UPS │
├────┼───────────────────────────────────────┤
│ │ │
│ 13 │ Over temperature alarm │
├────┼───────────────────────────────────────┤
│ │ │
│ 14 │ Charger alarm │
├────┼───────────────────────────────────────┤
│ │ │
│ 15 │ Remote auto shutdown │
├────┼───────────────────────────────────────┤
│ │ │
│ 16 │ L1 input fuse not working │
├────┼───────────────────────────────────────┤
│ │ │
│ 17 │ L2 input fuse not working │
├────┼───────────────────────────────────────┤
│ │ │
│ 18 │ L3 input fuse not working │
├────┼───────────────────────────────────────┤
│ │ │
│ 19 │ Positive PFC abnormal in L1 │
├────┼───────────────────────────────────────┤
│ │ │
│ 20 │ Negative PFC abnormal in L1 │
├────┼───────────────────────────────────────┤
│ │ │
│ 21 │ Positive PFC abnormal in L2 │
├────┼───────────────────────────────────────┤
│ │ │
│ 22 │ Negative PFC abnormal in L2 │
├────┼───────────────────────────────────────┤
│ │ │
│ 23 │ Positive PFC abnormal in L3 │
├────┼───────────────────────────────────────┤
│ │ │
│ 24 │ Negative PFC abnormal in L3 │
├────┼───────────────────────────────────────┤
│ │ │
│ 25 │ Abnormal in CAN-bus communication │
├────┼───────────────────────────────────────┤
│ │ │
│ 26 │ Abnormal in synchronous signal │
│ │ circuit │
├────┼───────────────────────────────────────┤
│ │ │
│ 27 │ Abnormal in synchronous pulse signal │
│ │ circuit │
├────┼───────────────────────────────────────┤
│ │ │
│ 28 │ Abnormal in host signal circuit │
├────┼───────────────────────────────────────┤
│ │ │
│ 29 │ Male connector of parallel cable not │
│ │ connected well │
├────┼───────────────────────────────────────┤
│ │ │
│ 30 │ Female connector of parallel cable │
│ │ not connected well │
├────┼───────────────────────────────────────┤
│ │ │
│ 31 │ Parallel cable not connected well │
├────┼───────────────────────────────────────┤
│ │ │
│ 32 │ Battery connection not consistent in │
│ │ parallel systems │
├────┼───────────────────────────────────────┤
│ │ │
│ 33 │ AC connection not consistent in │
│ │ parallel systems │
├────┼───────────────────────────────────────┤
│ │ │
│ 34 │ Bypass connection not consistent in │
│ │ parallel systems │
├────┼───────────────────────────────────────┤
│ │ │
│ 35 │ UPS model types not consistent in │
│ │ parallel systems │
├────┼───────────────────────────────────────┤
│ │ │
│ 36 │ Capacity of UPSs not consistent in │
│ │ parallel systems │
├────┼───────────────────────────────────────┤
│ │ │
│ 37 │ Auto restart setting not consistent │
│ │ in parallel systems │
├────┼───────────────────────────────────────┤
│ │ │
│ 38 │ Battery cell over charge │
├────┼───────────────────────────────────────┤
│ │ │
│ 39 │ Battery protection setting not │
│ │ consistent in parallel systems │
├────┼───────────────────────────────────────┤
│ │ │
│ 40 │ Battery detection setting not │
│ │ consistent in parallel systems │
├────┼───────────────────────────────────────┤
│ │ │
│ 41 │ Bypass not allowed setting not │
│ │ consistent in parallel systems │
├────┼───────────────────────────────────────┤
│ │ │
│ 42 │ Converter setting not consistent in │
│ │ parallel systems │
├────┼───────────────────────────────────────┤
│ │ │
│ 43 │ High loss point for frequency in │
│ │ bypass mode not consistent in │
│ │ parallel systems │
├────┼───────────────────────────────────────┤
│ │ │
│ 44 │ Low loss point for frequency in │
│ │ bypass mode not consistent in │
│ │ parallel systems │
├────┼───────────────────────────────────────┤
│ │ │
│ 45 │ High loss point for voltage in bypass │
│ │ mode not consistent in parallel │
│ │ systems │
├────┼───────────────────────────────────────┤
│ │ │
│ 46 │ Low loss point for voltage in bypass │
│ │ mode not consistent in parallel │
│ │ systems │
├────┼───────────────────────────────────────┤
│ │ │
│ 47 │ High loss point for frequency in AC │
│ │ mode not consistent in parallel │
│ │ systems │
├────┼───────────────────────────────────────┤
│ │ │
│ 48 │ Low loss point for frequency in AC │
│ │ mode not consistent in parallel │
│ │ systems │
├────┼───────────────────────────────────────┤
│ │ │
│ 49 │ High loss point for voltage in AC │
│ │ mode not consistent in parallel │
│ │ systems │
├────┼───────────────────────────────────────┤
│ │ │
│ 50 │ Low loss point for voltage in AC mode │
│ │ not consistent in parallel systems │
├────┼───────────────────────────────────────┤
│ │ │
│ 51 │ Warning for locking in bypass mode │
│ │ after 3 consecutive overloads within │
│ │ 30 min │
├────┼───────────────────────────────────────┤
│ │ │
│ 52 │ Warning for three-phase AC input │
│ │ current unbalance │
├────┼───────────────────────────────────────┤
│ │ │
│ 53 │ Warning for a three-phase input │
│ │ current unbalance detected in battery │
│ │ mode │
├────┼───────────────────────────────────────┤
│ │ │
│ 54 │ Warning for Inverter inter-current │
│ │ unbalance │
├────┼───────────────────────────────────────┤
│ │ │
│ 55 │ Programmable outlets cut off │
│ │ pre-alarm │
├────┼───────────────────────────────────────┤
│ │ │
│ 56 │ Warning for Battery replace │
├────┼───────────────────────────────────────┤
│ │ │
│ 57 │ Abnormal warning on input phase angle │
├────┼───────────────────────────────────────┤
│ │ │
│ 58 │ Warning!! Cover of maintain switch is │
│ │ open │
├────┼───────────────────────────────────────┤
│ │ │
│ 62 │ EEPROM operation error │
└────┴───────────────────────────────────────┘
AUTHORS
Daniele Pezzini <hyouko@gmail.com>, Arnaud Quette <arnaud.quette@gmail.com>, John Stamp
<kinsayder@hotmail.com>, Peter Selinger <selinger@users.sourceforge.net>, Arjen de Korte
<adkorte-guest@alioth.debian.org>, Alexander Gordeev <lasaine@lvk.cs.msu.su>
SEE ALSO
blazer_ser(8), blazer_usb(8), nutupsdrv(8), ups.conf(5), upsc(8), upscmd(8), upsdrvctl(8), upsmon(8),
upsrw(8)
Internet Resources:
The NUT (Network UPS Tools) home page: http://www.networkupstools.org/
The NUT HCL: http://www.networkupstools.org/stable-hcl.html
Network UPS Tools 2.7.3. 03/09/2016 NUTDRV_QX(8)