Table 2: Hardware configuration of the OpenSCADA server.
| Name |
Configuration |
Notes
|
| CPU |
AMD Phenom(tm) II X4 910e |
AMD Phenom(tm) II energo-effective CPU
- [2024-06] AMD Phenom(tm) II X4 910e purchased during performance improving with rising the power effectivity;
- [2014-06] AMD Phenom(tm) II X4 900e purchased as used one instead of the original one Athlon 64 X2 (too weak) and the brand new one A8-6500, TDP 65W.
|
| MB |
GIGABYTE GA-M68MT-D3 AM3 DDR3 (NVIDIA® GeForce 7025/nForce 630a)
|
socket AM2/AM2+/AM3 main board
- [2024-05] GA-M68MT-D3 purchased during performance improving with rising the power effectivity;
- [2022-06] GA-M68M-S2P — replaces M2NPV-VM for reuse the actual configuration and CPU
- more reliable at using solid capacitors and big chipset radiator;
- lesser power consumption (CPU powering by 1V) — server common consumption at the low loading is 46W instead 56W.
- [2014-06] M2NPV-VM — used but hard tested one and reliable one solution, instead purchased specially one of the brand new MB MSI A88X-G41 PC Mate.
|
| Memory |
8GB (DDR3-1333)
|
DDR3,DDR2 memory
- [2024-06] 2x4GB DDR3-1600 purchased during performance improving with rising the power effectivity;
- [2022-06] brand new ones (4GB) after replacing MB where only two memory slots are;
- [2014-06] mixed original ones for the Main Board (MB) and new ones (4GB).
|
| HDD |
1TB, RAID1 (IRP-SSDPR-S25C-01T+KODAK-X120)
|
brand new ones, low power consumption ones, heating about +8°C
- [2024] SSD KODAK X120 PRO 1TB — replaces ST1000VM002 by weariness;
- [2021] SSD IRP-SSDPR-S25C-01T — replaces broken WD10EZRX;
- [2015] WD10EZRX+ST1000VM002 — replace previous ones due to 5400+5900 RPM;
- [2014-06] 2 x DT01ACA050, 7200 RPM.
|
| Power Supply |
ATX Power Supply 350W FSP350-60EGN
|
Power Supply
- [2024-08-14] used one FSP350-60EGN — replaces RS-400-PSAP-I3 by weariness;
- [2014-06] brand new one RS-400-PSAP-I3.
|
| Case |
MidiTower, ATX |
used one
|
| UPS |
PowerCom INF-800 + LPM-MG12-65Ah |
- PowerCom INF-800 — brand new one (2016):
- The output form: a clean sine curve
- Charging: ~6A, up to 13.6V
- Discharging down to: ~11.2V
- Inverter effectivity: ~74%, from 52Ah (at ~120W) / 70.5Ah (on self 25W)
- Own consumption:
- from the battery, discharging on self (+23W): 2.5(4.35)A*13.3(13.1)V = 33(57)W
- from the powernet (without the inverter): 15(13)W
- The load measuring: 100% = 480W
- 12V Battery
- [2024-10] 12V16850BBlock3-29Ah assembled on 30 batteries INR18650 29E and the 3S 40A Balance board — replaces broken LPM-MG12-65Ah
-
 Outvalue on 1.7$ through Meest delivery to wrong address and followed local re-transmission by Oleksandr Prilepa (thanks for what)
- 2024-10-18: R = 27 mOm, Capacity = 29.3 Ah
- [2024-02] 12V16850BBlock2-29Ah assembled on 30 batteries INR18650 29E and the 3S 40A Balance board — replaces broken LPM-MG12-65Ah
- 2024-02-20: R = 27 mOm, Capacity = 30 Ah
- [2023-11] 12V16850BBlock1-29Ah assembled on 20 batteries INR18650 35E (degraded to 2.9Ah) + 10 INR18650 29E and the 3S 40A Enhanced board — replaces broken LPM-MG12-65Ah
- 2024-07-21: Capacity = >28.2 Ah
- 2024-02-28: R = 44 mOm, Capacity = 19.2 Ah
- 2023-11-01: Capacity = 19.5 Ah
- [2021-06] LPM-MG12-65Ah brand new one AGM MultiGel UPS buffer mode battery (2021-02) — replaces the previous broken — DEAD
- 2024-10-19: Capacity = 4.0 Ah
- 2023-06-20: Capacity = 12.5 Ah (5 hours at 2.5A)
- 2022-06-29: R = 12 mOm, Capacity = 70.5 Ah (28.2 hours at 2.5A), Degradation = 4.5 Ah/year
- 2021-06-18: R = 16 mOm, Capacity = 75 Ah (30 hours at 2.5A)
- [2019-06] LPM-MG12-65Ah brand new one AGM MultiGel UPS buffer mode battery (2018) — replaces the previous broken
- [2016-05] 6CT-60-A3 brand new one automobile starting battery
|
