UPS load ?

[Alaindor]

Hello,

 

I use a USB-connected UPS. I can see the % battery charge, but is it possible to show the % load in Aida64? I know it is available because I can see it in linux.

 

 

Below the dump about my UPS (I guess the actual load at the time could be 19%, not sure though):

------[ AIDA64 Extreme v5.60.3746 Beta ]------

------[ Microsoft Windows 10 Home 10.0.10240.16644 (64-bit) ]------

------[ Motherboard Info ]------

Motherboard ID      : 63-0100-000001-00101111-010914-Chipset$0AAAA000_BIOS DATE: 08/14/15 16:26:53 VER: 05.06.05
Motherboard Model   : Asus Rampage V Extreme
Motherboard Chipset : Intel Wellsburg X99, Intel Haswell-E

DMI MB Manufacturer : ASUSTeK COMPUTER INC.
DMI MB Product      : RAMPAGE V EXTREME
DMI MB Version      : Rev 1.xx
DMI MB Serial       : 150239755800161
DMI SYS Manufacturer: ASUS
DMI SYS Product     : All Series
DMI SYS Version     : System Version
DMI SYS Serial      : System Serial Number
DMI BIOS Version    : 1701

------[ Batteries ]------

<DESC>Batterie d’onduleur HID</DESC><DEVPATH>\\?\hid#vid_10af&pid_0001#7&1eb57cfc&0&0000#{72631e54-78a4-11d0-bcf7-00aa00b7b32a}</DEVPATH><INSTANCE>HID\VID_10AF&PID_0001\7&1EB57CFC&0&0000</INSTANCE><BUSNUM>00000008</BUSNUM><ADDR>00000002</ADDR>

------[ Human Interface Devices ]------

<DESC>Périphérique clavier PIH</DESC><DEVPATH>\\?\hid#wmvirtualdevice#2&25d493e&0&0000#{4d1e55b2-f16f-11cf-88cb-001111000030}</DEVPATH><INSTANCE>HID\WMVIRTUALDEVICE\2&25D493E&0&0000</INSTANCE><BUSNUM>0000000D</BUSNUM><ADDR></ADDR>
<DESC>Périphérique de contrôle consommateur conforme aux Périphériques d'interface utilisateur (HID)</DESC><DEVPATH>\\?\hid#vid_04d9&pid_2323&mi_01&col01#8&2c3973ca&0&0000#{4d1e55b2-f16f-11cf-88cb-001111000030}</DEVPATH><INSTANCE>HID\VID_04D9&PID_2323&MI_01&COL01\8&2C3973CA&0&0000</INSTANCE><BUSNUM>0000000A</BUSNUM><ADDR>00000005</ADDR>
<DESC>Souris HID</DESC><DEVPATH>\\?\hid#vid_068e&pid_c001#3&751bf4b&0&0000#{4d1e55b2-f16f-11cf-88cb-001111000030}</DEVPATH><INSTANCE>HID\VID_068E&PID_C001\3&751BF4B&0&0000</INSTANCE><BUSNUM>00000001</BUSNUM><ADDR>00000000</ADDR>
<DESC>Contrôleur système HID</DESC><DEVPATH>\\?\hid#vid_04d9&pid_2323&mi_01&col02#8&2c3973ca&0&0001#{4d1e55b2-f16f-11cf-88cb-001111000030}</DEVPATH><INSTANCE>HID\VID_04D9&PID_2323&MI_01&COL02\8&2C3973CA&0&0001</INSTANCE><BUSNUM>0000000A</BUSNUM><ADDR>00000005</ADDR>
<DESC>Périphérique clavier PIH</DESC><DEVPATH>\\?\hid#vid_0c16&pid_0002&mi_00&col01#7&3b9000b6&0&0000#{4d1e55b2-f16f-11cf-88cb-001111000030}</DEVPATH><INSTANCE>HID\VID_0C16&PID_0002&MI_00&COL01\7&3B9000B6&0&0000</INSTANCE><BUSNUM>00000005</BUSNUM><ADDR>00000005</ADDR>
<DESC>Périphérique de contrôle consommateur conforme aux Périphériques d'interface utilisateur (HID)</DESC><DEVPATH>\\?\hid#vid_0c16&pid_0002&mi_00&col02#7&3b9000b6&0&0001#{4d1e55b2-f16f-11cf-88cb-001111000030}</DEVPATH><INSTANCE>HID\VID_0C16&PID_0002&MI_00&COL02\7&3B9000B6&0&0001</INSTANCE><BUSNUM>00000005</BUSNUM><ADDR>00000005</ADDR>
<DESC>Périphérique clavier PIH</DESC><DEVPATH>\\?\hid#vid_044f&pid_0400&mi_01#7&25a837cc&0&0000#{4d1e55b2-f16f-11cf-88cb-001111000030}</DEVPATH><INSTANCE>HID\VID_044F&PID_0400&MI_01\7&25A837CC&0&0000</INSTANCE><BUSNUM>00000003</BUSNUM><ADDR>0000000F</ADDR>
<DESC>Contrôleur de jeu HID</DESC><DEVPATH>\\?\hid#vid_046d&pid_c21f&ig_00#8&3684ca5f&0&0000#{4d1e55b2-f16f-11cf-88cb-001111000030}</DEVPATH><INSTANCE>HID\VID_046D&PID_C21F&IG_00\8&3684CA5F&0&0000</INSTANCE><BUSNUM>0000000B</BUSNUM><ADDR></ADDR>
<DESC>Contrôleur système HID</DESC><DEVPATH>\\?\hid#vid_0c16&pid_0002&mi_00&col03#7&3b9000b6&0&0002#{4d1e55b2-f16f-11cf-88cb-001111000030}</DEVPATH><INSTANCE>HID\VID_0C16&PID_0002&MI_00&COL03\7&3B9000B6&0&0002</INSTANCE><BUSNUM>00000005</BUSNUM><ADDR>00000005</ADDR>
<DESC>Périphérique fournisseur HID</DESC><DEVPATH>\\?\hid#vid_0c16&pid_0002&mi_00&col04#7&3b9000b6&0&0003#{4d1e55b2-f16f-11cf-88cb-001111000030}</DEVPATH><INSTANCE>HID\VID_0C16&PID_0002&MI_00&COL04\7&3B9000B6&0&0003</INSTANCE><BUSNUM>00000005</BUSNUM><ADDR>00000005</ADDR>
<DESC>Souris HID</DESC><DEVPATH>\\?\hid#wmvirtualdevice#2&2b3e62a0&0&0000#{4d1e55b2-f16f-11cf-88cb-001111000030}</DEVPATH><INSTANCE>HID\WMVIRTUALDEVICE\2&2B3E62A0&0&0000</INSTANCE><BUSNUM>0000000E</BUSNUM><ADDR></ADDR>
<DESC>Batterie d’onduleur HID</DESC><DEVPATH>\\?\hid#vid_10af&pid_0001#7&1eb57cfc&0&0000#{4d1e55b2-f16f-11cf-88cb-001111000030}</DEVPATH><INSTANCE>HID\VID_10AF&PID_0001\7&1EB57CFC&0&0000</INSTANCE><BUSNUM>00000008</BUSNUM><ADDR>00000002</ADDR>
<DESC>Contrôleur de jeu HID</DESC><DEVPATH>\\?\hid#vid_044f&pid_0400&mi_00#7&19428837&0&0000#{4d1e55b2-f16f-11cf-88cb-001111000030}</DEVPATH><INSTANCE>HID\VID_044F&PID_0400&MI_00\7&19428837&0&0000</INSTANCE><BUSNUM>00000002</BUSNUM><ADDR>0000000E</ADDR>
<DESC>Souris HID</DESC><DEVPATH>\\?\hid#vid_0c16&pid_0002&mi_01&col01#7&23cc7471&0&0000#{4d1e55b2-f16f-11cf-88cb-001111000030}</DEVPATH><INSTANCE>HID\VID_0C16&PID_0002&MI_01&COL01\7&23CC7471&0&0000</INSTANCE><BUSNUM>00000006</BUSNUM><ADDR>00000006</ADDR>
<DESC>Souris HID</DESC><DEVPATH>\\?\hid#vid_047d&pid_1020#7&f43198d&0&0000#{4d1e55b2-f16f-11cf-88cb-001111000030}</DEVPATH><INSTANCE>HID\VID_047D&PID_1020\7&F43198D&0&0000</INSTANCE><BUSNUM>00000007</BUSNUM><ADDR>00000003</ADDR>
<DESC>Souris HID</DESC><DEVPATH>\\?\hid#vid_044f&pid_0400&mi_02#7&24377423&0&0000#{4d1e55b2-f16f-11cf-88cb-001111000030}</DEVPATH><INSTANCE>HID\VID_044F&PID_0400&MI_02\7&24377423&0&0000</INSTANCE><BUSNUM>00000004</BUSNUM><ADDR>00000010</ADDR>
<DESC>Périphérique de contrôle consommateur conforme aux Périphériques d'interface utilisateur (HID)</DESC><DEVPATH>\\?\hid#vid_0c16&pid_0002&mi_01&col02#7&23cc7471&0&0001#{4d1e55b2-f16f-11cf-88cb-001111000030}</DEVPATH><INSTANCE>HID\VID_0C16&PID_0002&MI_01&COL02\7&23CC7471&0&0001</INSTANCE><BUSNUM>00000006</BUSNUM><ADDR>00000006</ADDR>
<DESC>Contrôleur système HID</DESC><DEVPATH>\\?\hid#vid_0c16&pid_0002&mi_01&col03#7&23cc7471&0&0002#{4d1e55b2-f16f-11cf-88cb-001111000030}</DEVPATH><INSTANCE>HID\VID_0C16&PID_0002&MI_01&COL03\7&23CC7471&0&0002</INSTANCE><BUSNUM>00000006</BUSNUM><ADDR>00000006</ADDR>
<DESC>Périphérique clavier PIH</DESC><DEVPATH>\\?\hid#vid_068e&pid_c000#3&1a81db89&0&0000#{4d1e55b2-f16f-11cf-88cb-001111000030}</DEVPATH><INSTANCE>HID\VID_068E&PID_C000\3&1A81DB89&0&0000</INSTANCE><BUSNUM>00000000</BUSNUM><ADDR>00000000</ADDR>
<DESC>Périphérique clavier PIH</DESC><DEVPATH>\\?\hid#vid_04d9&pid_2323&mi_00#8&8623608&0&0000#{4d1e55b2-f16f-11cf-88cb-001111000030}</DEVPATH><INSTANCE>HID\VID_04D9&PID_2323&MI_00\8&8623608&0&0000</INSTANCE><BUSNUM>00000009</BUSNUM><ADDR>00000004</ADDR>
<DESC>Périphérique fournisseur HID</DESC><DEVPATH>\\?\hid#vid_0c16&pid_0002&mi_01&col04#7&23cc7471&0&0003#{4d1e55b2-f16f-11cf-88cb-001111000030}</DEVPATH><INSTANCE>HID\VID_0C16&PID_0002&MI_01&COL04\7&23CC7471&0&0003</INSTANCE><BUSNUM>00000006</BUSNUM><ADDR>00000006</ADDR>
<DESC>Souris HID</DESC><DEVPATH>\\?\hid#vid_0488&pid_0280#7&a518633&0&0000#{4d1e55b2-f16f-11cf-88cb-001111000030}</DEVPATH><INSTANCE>HID\VID_0488&PID_0280\7&A518633&0&0000</INSTANCE><BUSNUM>0000000C</BUSNUM><ADDR>00000003</ADDR>
<DESC>Périphérique fournisseur HID</DESC><DEVPATH>\\?\hid#vid_0c16&pid_0002&mi_01&col05#7&23cc7471&0&0004#{4d1e55b2-f16f-11cf-88cb-001111000030}</DEVPATH><INSTANCE>HID\VID_0C16&PID_0002&MI_01&COL05\7&23CC7471&0&0004</INSTANCE><BUSNUM>00000006</BUSNUM><ADDR>00000006</ADDR>

------[ BatteryList ]------

<DESC>Batterie d’onduleur HID</DESC><DEVPATH>\\?\hid#vid_10af&pid_0001#7&1eb57cfc&0&0000#{72631e54-78a4-11d0-bcf7-00aa00b7b32a}</DEVPATH><INSTANCE>HID\VID_10AF&PID_0001\7&1EB57CFC&0&0000</INSTANCE><BUSNUM>00000008</BUSNUM><ADDR>00000002</ADDR><HID>1</HID>

------[ Battery #0 ]------

*** Smart Battery Interface ***

BatteryDeviceName      = LiebertPSI
BatteryManufactureName = Emerson Network Power
BatterySerialNumber    =           
BatteryUniqueID        =           Emerson Network PowerLiebertPSI

BatteryInformation:
- Technology          = 1
- Chemistry           = PbAc
- Capabilities        = E0000000h
- RelativeCapacity    = 1
- DesignedCapacity    = 100
- FullChargedCapacity = 100
- CriticalBias        = 0
- CycleCount          = 0

BatteryStatus:
- PowerState = 00000005h
- Capacity   = 100
- Voltage    = 0
- Rate       = -2147483648

*** HID Interface ***

GetSerialNumberString =           

IndexedStrings:
#00: ?
#01: LiebertPSI
#02:           
#04: PbAc
#05: UPS NO ACK
#19: Emerson Network Power

NumberFeatureValueCaps  = 20
FeatureReportByteLength = 3

FeatureValueCaps:
#000: UPage 0084, UMinMax 00FE-00FE, LnkC 0001, LnkU 0084-0024, RptID 01, UntEx  0, Unt 00000000, LogMinMax 0-255 = 1
#001: UPage 0084, UMinMax 00FF-00FF, LnkC 0001, LnkU 0084-0024, RptID 02, UntEx  0, Unt 00000000, LogMinMax 0-255 = 2
#002: UPage 0084, UMinMax 00FD-00FD, LnkC 0001, LnkU 0084-0024, RptID 03, UntEx  0, Unt 00000000, LogMinMax 0-255 = 19
#003: UPage 0085, UMinMax 008F-008F, LnkC 0001, LnkU 0084-0024, RptID 04, UntEx  0, Unt 00000000, LogMinMax 0-255 = 19
#004: UPage 0085, UMinMax 0089-0089, LnkC 0001, LnkU 0084-0024, RptID 08, UntEx  0, Unt 00000000, LogMinMax 0-255 = 4
#005: UPage 0085, UMinMax 002C-002C, LnkC 0001, LnkU 0084-0024, RptID 06, UntEx  0, Unt 00000000, LogMinMax 0-255 = 2
#006: UPage 0085, UMinMax 008B-008B, LnkC 0001, LnkU 0084-0024, RptID 06, UntEx  0, Unt 00000000, LogMinMax 0-255 = 1
#007: UPage 0085, UMinMax 0066-0066, LnkC 0001, LnkU 0084-0024, RptID 0C, UntEx  0, Unt 00000000, LogMinMax 0-255 = 100
#008: UPage 0085, UMinMax 0083-0083, LnkC 0001, LnkU 0084-0024, RptID 0D, UntEx  0, Unt 00000000, LogMinMax 0-255 = 100
#009: UPage 0085, UMinMax 0067-0067, LnkC 0001, LnkU 0084-0024, RptID 0E, UntEx  0, Unt 00000000, LogMinMax 0-255 = 100
#010: UPage 0085, UMinMax 008C-008C, LnkC 0001, LnkU 0084-0024, RptID 0F, UntEx  0, Unt 00000000, LogMinMax 0-255 = 38
#011: UPage 0085, UMinMax 008E-008E, LnkC 0001, LnkU 0084-0024, RptID 10, UntEx  0, Unt 00000000, LogMinMax 0-255 = 1
#012: UPage 0085, UMinMax 008D-008D, LnkC 0001, LnkU 0084-0024, RptID 10, UntEx  0, Unt 00000000, LogMinMax 0-255 = 1
#013: UPage 0085, UMinMax 0029-0029, LnkC 0001, LnkU 0084-0024, RptID 11, UntEx  0, Unt 00000000, LogMinMax 0-255 = 38
#014: UPage 0084, UMinMax 0030-0030, LnkC 0001, LnkU 0084-0024, RptID 1D, UntEx -1, Unt 00F0D121, LogMinMax 0-65535 = 435
#015: UPage 0084, UMinMax 0040-0040, LnkC 0001, LnkU 0084-0024, RptID 1F, UntEx -1, Unt 00F0D121, LogMinMax 0-65535 = 36
#016: UPage 0084, UMinMax 0030-0030, LnkC 0003, LnkU 0084-001C, RptID 2B, UntEx -1, Unt 00F0D121, LogMinMax 0-65535 = 2339
#017: UPage 0084, UMinMax 0035-0035, LnkC 0003, LnkU 0084-001C, RptID 2C, UntEx  0, Unt 00000000, LogMinMax 0-255 = 14
#018: UPage 0084, UMinMax 0030-0030, LnkC 0004, LnkU 0084-001A, RptID 20, UntEx -1, Unt 00F0D121, LogMinMax 0-65535 = 2331
#019: UPage 0084, UMinMax 0032-0032, LnkC 0004, LnkU 0084-001A, RptID 38, UntEx  0, Unt 0000F001, LogMinMax 0-65535 = 500

NumberInputValueCaps  = 2
InputReportByteLength = 2

InputValueCaps:
#000: UPage 0085, UMinMax 0066-0066, LnkC 0001, LnkU 0084-0024, RptID 0C, UntEx  0, Unt 00000000, LogMinMax 0-255 = 100
#001: UPage 0085, UMinMax 0029-0029, LnkC 0001, LnkU 0084-0024, RptID 11, UntEx  0, Unt 00000000, LogMinMax 0-255 = 38

NumberFeatureButtonCaps = 7
FeatureReportByteLength = 3

FeatureButtonCaps:
#000: UPage 0085, UMinMax 0044-0044, LnkC 0002, LnkU 0084-0002, RptID 07 = 1
#001: UPage 0085, UMinMax 0045-0045, LnkC 0002, LnkU 0084-0002, RptID 07 = 0
#002: UPage 0085, UMinMax 00D0-00D0, LnkC 0002, LnkU 0084-0002, RptID 07 = 1
#003: UPage 0085, UMinMax 00D1-00D1, LnkC 0002, LnkU 0084-0002, RptID 07 = 1
#004: UPage 0085, UMinMax 0042-0042, LnkC 0002, LnkU 0084-0002, RptID 07 = 0
#005: UPage 0084, UMinMax 0069-0069, LnkC 0002, LnkU 0084-0002, RptID 07 = 1
#006: UPage 0085, UMinMax 004B-004B, LnkC 0002, LnkU 0084-0002, RptID 07 = 0

Please let me know if you need more détails (e.g. linux response format from nut). I guess this is pretty common format to many USB-connected UPS's.

 

 

Thanks, best regards

[Fiery]

Power Load and Max Power Load should already be available on the Computer / Power Management page of AIDA64

[Alaindor]

Yep, what I gathered, but i only have : name / manufacturer, id, battery type, actual capacity (of the battery) and status (charging,...), no power loads to be read there...

[Alaindor]

Thanks ! Your 3746c beta solved the issue!

 

140 minutes from question to new build addressing the "issue", I'm truly impressed !  

[Fiery]

Thank you for the feedback You keep bringing up valid points, so we jumped on them

[mr_aleks]

Hello.

I have an APC Smart-UPS 750VA UPS. So, when my monitor is connected to it, the value of "Power Load" in watts is incorrectly calculated, this value is exactly twice as large (or about that). I checked with the device and it is! When I just turn off the monitor, this value is reduced to the correct one. Why is this happening? See the screenshots.

 

 

[Fiery]

On ‎5‎/‎30‎/‎2018 at 9:33 PM, mr_aleks said:

Hello.

I have an APC Smart-UPS 750VA UPS. So, when my monitor is connected to it, the value of "Power Load" in watts is incorrectly calculated, this value is exactly twice as large (or about that). I checked with the device and it is! When I just turn off the monitor, this value is reduced to the correct one. Why is this happening? See the screenshots.

Please right-click on the bottom status bar of AIDA64 main window --> System Debug --> Battery Dump. Copy-paste the full results into this topic, or attach the results as a TXT file to your post. You may need to enable status bar in AIDA64 / main menu / View first.

Thanks,
Fiery

[mr_aleks]

On 6/3/2018 at 6:40 PM, Fiery said:

Please right-click on the bottom status bar of AIDA64 main window --> System Debug --> Battery Dump. Copy-paste the full results into this topic, or attach the results as a TXT file to your post. You may need to enable status bar in AIDA64 / main menu / View first.

Thanks,
Fiery

Added Dump

usbpsudump.txt

[Fiery]

7 hours ago, mr_aleks said:

Added Dump

usbpsudump.txt

Thank you, but I'm afraid that was the USB PSU Dump, and not the Battery Dump  

[mr_aleks]

2 hours ago, Fiery said:

Thank you, but I'm afraid that was the USB PSU Dump, and not the Battery Dump  

I apologize, they seem to be in titles. I added the required dump. I deleted all references to the serial number.

 

battdump.txt

[Fiery]

Thank you.  It seems the issue is that your UPS reports a constant Power Load percentage value of 23%, regardless of the load on the UPS.  While it reports a different Power Load value with or without the monitor connected.  The second, varying power load value (measured in Watts) comes from multiplying the Output Voltage and Output Current measurements.  As you can see, the Output Current varies between 0.4 Ampers and 1.0 Ampers, and AIDA64 then correctly calculates the Power Load Wattage value from them.  Please note that in your particular case the Power Load percentage and Power Load in Watts values have no association, since they are detected using separate (different) calls via UPS HID.

My conclusion is that your UPS may have an issue reporting the right (accurate) Output Current values, and that makes the Power Load (in Watts) values look odd.