SmartUP V1 Smart Up Module Batiri Data Monitor Ilana

measurement of instantaneous battery data: voltage, current, available Ah and temperature. An indication of the amount of Ah present in the battery is given by the LEDs on the panel (§1.4 Signals via LEDs)

presence of RTC (Real Time Clock) to link the collected measurements to date and time
storage of historical data. Past battery activity can be viewed lori PC nipa lilo SmartViewII software. The data collected can be viewed ti a ṣe akojọpọ nipasẹ iwọn iṣẹ tabi nipasẹ ọjọ. Fun ọmọ iṣẹ kọọkan, data ti pese ni nọmba ati fọọmu iwọn

data download to PC. All data is sent to the SmartViewII PC program via the USB connection
data download directly to USB key. With SmartView, you can import data from a USB key.

statistical analysis. SmartViewII contains a number of features that provide statistics that allow you to assess the correctness of battery use and charging and to report any anomalies
possibility of interfacing with SmartKey devices (system that controls access to the trolley and stores events and shocks).

Awọn ẹya ẹrọ atẹle wọnyi wa bi aṣayan:

External temperature probe for immersion

electrolyte level probe.

Ojuse Cycle
The term Duty cycle refers to a sequence consisting of a discharge phase followed by a charging phase. Since a cycle change is forced in the event of a new association, power outage, or long inactivity after a charge, this definition should be understood as a guideline. Another exception is if the Feeding option is set (see §1.6 Feeding Bottle).
The transition from the discharge phase to the charging phase takes place after 2 minutes of charging, to avoid misunderstandings due to the presence of a charge recovery device during braking (in the latter case we will speak of energy recovery and the input charge will be counted in “Recovered Capacity”).

In the discharge phase , the Discharge Capacity is counted; two situations that may arise in the event of excessive discharge are also highlighted: the “Under-discharge Time” indicates the time in which the voltage si maa wa ni isalẹ awọn eto Labẹ-idasonu Voltage (see §4.3 Programming of working parameters) and the Discharge Capacity Below AhBS (indicates the capacity used below the threshold of (100-AhBS)% of the battery’s Rated Capacity). Finally, within the discharge phase, Self-Discharged Capacity and Recovered Capacity are counted.
Within the charging phase , a distinction is made between a First Phase (the part of the charge that precedes the achievement of the programmed 2^ Phase Threshold Voltage), Ipele Keji (apakan idiyele ti o tẹle aṣeyọri ti 2^ Ipele Ipele Ipele Voltage) and the Overcharge, (which corresponds to any excess charge beyond the hypothetical achievement of 109% of the Nominal Capacity).
Fun alaye loriview ti alaye ti a pese nipa SmartViewII (TAB Alaye ati TAB Alaye atijọ), wo SmartViewII ọkunrin

Anomaly
Awọn SmartViewEto II n pese awọn itọkasi ti awọn aiṣedeede ti a rii ninu iyipo.

Anomaly	Apejuwe	LED Anom.
1^Aago Aabo Alakoso	Nigba gbigba agbara, batiri voltage ko de “Olobo Voltage 2^ Phase” within the “Safety Time 1^ Phase” (see §4.3 Programming of working parameters)	X
2^Aago Aabo Alakoso	Lakoko gbigba agbara, ni 2^ Ipele, idiyele batiri ko ti de ọdọ nominal capacity within the “2^ Phase Safety Time” (see §4.3 Programming of working parameters)	X
Ah Security	Lakoko gbigba agbara, batiri de agbara 110% ṣaaju gbigbe si 2^ Ipele
Battery Discharged under AhBS	During discharge, the battery capacity has dropped below the “Low Battery Threshold (AhBS)” (see §4.3 Programming the battery parameters). work)
Išẹ batiri ti ko dara	The battery has been under-discharged for a time ≥ “Under-discharge check” when the remaining capacity in the battery is ≥ (Nominal Capacity – Low Battery Threshold) (see §4.3 Programming Working parameters)
Low battery electrolyte level	Electrolyte level probe reports electrolyte below the minimum level (*)	X
Incorrect Programming/Relay breakdown	Pẹlu SmartCB ti a ti yan (wo iṣẹ Awọn paramita siseto §4.3) lọwọlọwọ gbigba agbara wa laibikita ṣiṣii “Igba agbara Relay”
Anomalia EEprom/RTC	Isinmi ninu iranti ẹrọ SmartUP tabi RTC ti rii

Awọn “X” ni “LED Anom.” iwe tọkasi wipe o wa jẹ ẹya LED ifihan agbara fun awọn itọkasi anomaly.
(*) “Ipele elekitiroti kekere” anomaly ti han nipasẹ ṣiṣiṣẹ LED anomaly ati itọkasi lori SmartView Alaye TAB fun gbogbo ati akoko nikan ti o nṣiṣẹ. Sibẹsibẹ, anomaly si maa wa ni akori ati ki o le jẹ viewed in the “Info OLD” TAB.

AKIYESI: The “Low electrolyte level” abnormality state occurs after 3 minutes of continuous reporting by the probe. The anomaly status returns after 10 seconds of continuous lack of signaling. Since some probes provide delayed signaling, the actual time of activation and deactivation of the anomaly depends on the type of probe used.

Signals via LEDs
Awọn LED lori ẹrọ pese alaye to wulo pẹlu itọkasi iye idiyele ti o wa ninu batiri naa ati o ṣee ṣe awọn ifihan agbara ti o jọmọ diẹ ninu awọn asemase. Awọn ọran wọnyi jẹ iyatọ:

LED 1 ìmọlẹ	Battery capacity not exceeding (100-AhBS)% of rated capacity Battery
Led 1 wiwọle	Battery capacity greater than (100-AhBS)% and less than 40% of the battery
Awọn LED 1 ati 2 tan	Agbara batiri ko din ju 40% ati pe o kere ju 60% ti batiri naa
Awọn LED lati 1 si 3 tan	Agbara batiri ko din ju 60% ati pe o kere ju 80% ti batiri naa
Awọn LED lati 1 si 4 tan	Agbara batiri ko din ju 80% ati pe o kere ju 95% ti batiri naa
Awọn LED lati 1 si 5 tan	Agbara batiri ko din ju 95% ti batiri naa
Periodic switching off of the LEDs from top to top the bass (sequence from Led 5 to Led 1)	Download phase
Periodic switching on of the LEDs from bottom to bottom the top (sequence from Led 1 to Led 5)	Gbigba agbara Alakoso
LED 3 ìmọlẹ	Idinamọ awọn Forks Gbigba agbara pajawiri, wo §1.7 Awọn iṣẹ titiipa

LED 4 ìmọlẹ	Titiipa gbigbe ṣiṣẹ (nitori ṣiṣe eto), wo §1.7 Awọn iṣẹ ti Àkọsílẹ
LED 5 ìmọlẹ	Fork lock actuated (due to low battery), see §1.7 block
Led 6 (COM) lampẹyin	Communication via usb cable
LED 7 (USB) flashing	When saving data on a USB key, the LED flashes with a period of 1 second
Led 8 (ALARM) access	Anomaly found in the current cycle

Akiyesi: AhBS is a parameter that can be programmed via SmartViewII. Ti iye ti o kere ju 60% ti yan, awọn ijabọ yoo yato si awọn ti o han ninu tabili pẹlu iyi si LED akọkọ lati isalẹ eyiti yoo tun filasi pẹlu agbara batiri ti ko kọja (100-AhBS)%.

Usb

USB ibudo

Cable ẹṣẹ 1

Awọn okun agbara

Cable Gland 2/Cable Gland 3

Electrolyte level probe CAN BUS temperature probe

RS485

I2C Bus Auxiliary input

Estimation of completed charging
Ṣeun si awọn ẹya ti a ṣalaye loke, SmartUP ni anfani lati ṣe iṣiro deede agbara ti o wa ninu batiri naa. Awọn ọna oriṣiriṣi meji lo wa lati pinnu aṣeyọri ti idiyele kikun. Ni igba akọkọ ti (ibile, orisun-akoko) pese pe batiri naa ni a gba agbara lẹhin iye akoko idiyele lẹhin ti o kọja ti 2^ Ipele Ala-ilẹ Vol.tage has reached the 2^ Phase Charge Time (see §4.3 Programming of working parameters). The second mode (Ah), on the other hand, provides that the charge is evaluated as complete when the reinstated capacity added to that present in the battery at the time of the start of charging is equal to the nominal capacity.
The Default setting is to choose the Ah method (see §4.3 Programming working parameters).

AKIYESI

Alignment (see §5 Alignment) only takes place after a full time charge has been performed.

Ounjẹ ọmọ
Ọrọ naa “gbigba agbara igo” n tọka si ipo lilo pẹlu eyiti batiri naa ti gba agbara leralera ati gbigba silẹ fun awọn akoko kukuru ati awọn agbara kekere (gẹgẹbi ọran fun iṣaaju.ample in AGVs – Automatic Guided Vehicles). In this situation there would be a proliferation of work cycles that would lead to a rapid exhaustion of memory and a substantial unreadability of the data. In such cases, by setting the “Bottle feeding” item in programming (§4.3 Programming working parameters), it is possible to reduce the daily number of cycles: in this mode, in fact, a new cycle is generated only if a discharge occurs after the sum of the cycle charge times has already exceeded one hour.

Awọn iṣẹ titiipa
The SmartUP device has two functions that are based on the measurement of the capacity level in the battery to inhibit the operation of the forklift and/or fork lock, through the NO (Normal Open) contact of a relay.
These functions require that the relay contact be wired to a circuit in the truck that may limit its functionality (e.g., the circuit that blocks operation when the operator is not seated).

No Bottle Charging: At the end of the charging phase, if the percentage ti Ah ninu batiri naa ga ju ti a ṣe eto ni Ko si ifunni igo (wo §4.3 Awọn aye siseto siseto), trolley ti ṣiṣẹ fun lilo deede (olubasọrọ KO ti wa ni pipade). Lọna miiran, ti agbara batiri ba kere ju ida ọgọrun ti a ṣe eto yiitage, use is inhibited (the NO contact is left open). Setting the parameter to 0% (as default) deactivates the function.
Orita Lock: During discharge, as long as the battery level does not drop below (100-Fork Lock)%, normal operation is allowed (the NO contact is closed). When the capacity falls below this threshold, normal use is instead inhibited (the NO contact is left open).

AKIYESI: To avoid interrupting maneuvers during a phase of intense use, the lock is performed 30 seconds after the last maneuver.
The default value of the programmable parameter “Fork Lock” is 80%.

Ẹrọ naa tun pese iṣẹ titiipa atẹle, lati ṣe idiwọ lilo trolley ni ita awọn wakati iṣẹ.
Cart Lock: it is possible to set, for each day of the week, the time (start and end) in which to force the cart lock. If the two times coincide, the block does not take place. The Timeout parameter indicates the amount of time that the cart must be idle before the lock is enforceable

Bọtini Lilo

if the USB key is inserted and the button is pressed for a duration of 5 seconds, the data download from SmartUP to the USB key begins. The data download takes about 2 minutes, during which the yellow communication LED flashes. At the end of the data download, the yellow communication LED will be off.
if the Fork Lock situation is reached during unloading , pressing the button ensures an additional usable capacity bonus equal to 4% of the nominal capacity
if during a work cycle the utilities are blocked for Opportunity Prevention, pressing the button disables the lock for that cycle
Within 6 minutes of powering, repeatedly pressing the button forces the amount of ampere hours in the battery with an increase of 20% of the nominal capacity at each press (warning: it does not align). This function is useful if the Fork Lock function is selected, to allow normal use of the truck after SmartUP is installed before the alignment charge is carried out

Montage

Awọn ohun elo ti o nilo:

n° 1 Phillips screwdriver (PH1 type)
n° 1 3mm Allen key
n° 1 x 4mm Allen key

5.A
		Ifunni okun ọpá rere ( USB red) inside of hole of Form
		SmarUP
		A) DINxxx type connector B) Smartup in mode C) Plastic cable ties D) Grapevines E) Cable lock

		Ṣe aabo okun ebute rere (okun pupa), pẹlu awọn asopọ okun ti a pese

Mounting for rated currents less than or equal to 100 A

Asopọmọra ẹya ẹrọ

The following steps are used to install the following external accessories:

immersion temperature probe, type PT1000 two-wire
Electrolyte Level Sensor

Auxiliary input 0÷10 V
RS485
CANBUS

Yi olubasọrọ

The operations are optional and independent of each other. For simplicity, connectors J1, J2 and J6 will be shown with their connections in tabular form. The pins will need to be crimped onto type…….. connectors

Asopọ	POLY	Apejuwe
J1	1	–	Auxiliary input 0 ÷ 10 V
	3	+	Auxiliary input 0 ÷ 10 V
	5		PT1000
	7		PT1000
	2	3,3V	I2CBUS ita
	4	GND
	6	SCL
	8	SDA

Asopọ	POLY	Apejuwe
Ọjọ 2	2	A (+)	RS485
	4	B (-)
	6	DC pẹlu pin 4 lati fi opin si
	1	CANL	CANBUS
	3	LE
	5	DC pẹlu pin 3 lati fi opin si
	7	Ni deede ṣiṣi	Relay Gbẹ Olubasọrọ
	8	Wọpọ	Relay Gbẹ Olubasọrọ

Asopọ

POLY

Apejuwe

J6	1	ifihan agbara +	Electrolyte ipele ibere
	2	ifihan agbara-

Communication with SmartKey (J2 Connector)
Ibaraẹnisọrọ pẹlu SmartKey viewer takes place via RS485 serial port.
The connection is made via a two-wire cable. One side of the cable is connected to the SmartUP, the other to the auxiliary contacts of the battery connector.

Cart Control Mode (J2 Connector)
Awọn iṣẹ ti idinamọ tabi diwọn awọn iṣẹ ṣiṣe ti awọn ohun elo nilo ki o firanṣẹ olubasọrọ yii lori ẹrọ naa.

Electrolyte level probe installation (J6 connector)

7.E

Place the Level Sensor inside a battery element (the automatic refill cap has been used in the figure; alternatively, a hole can be drilled in the element cover).

Fun ipese agbara, ipo ati ṣeto ipele ala-ilẹ, tọka si awọn itọnisọna olupese olupese.

Niwọn igba ti titẹ sii ti ya sọtọ galvanically, sensọ le wa ni gbigbe sori eyikeyi ano ti batiri naa.

Ti o da lori iru iwadii ti a lo ati titẹ sii eyiti o ti sopọ, paramita “Electrolyte sensọ” gbọdọ jẹ siseto nipasẹ SmartView in the Programming TAB (see §4.3 Programming working parameters).
The table shows the options that can be selected in the drop-down menu.

Paa	Iwadi ko fi sori ẹrọ.
Presence of water	Select whether the probe generates signal in case of electrolyte level above threshold (electrolyte level OK). Probe wired to terminals 8 (signal) and 10 (common).
Aisi omi	Select whether the probe generates signal in case of below threshold electrolyte level (low electrolyte level). Probe wired to terminals 8 (signal) and 10 (common).

Siseto

Ni kete ti o ti fi sii, SmartUP nilo lati gba alaye diẹ lati ṣiṣẹ daradara. Lati ṣe eyi, o nilo lati sopọ PC ti o ni ipese pẹlu SmartViewII for Windows program via USB cable.

Igbaradi

Connect USB cables
Launch the SmartViewII program
Enter Level 2 Password

Tẹ bọtini asopọ

Ọjọ/Aago Eto

Select the “Programming” TAB

Press the “Set Clock” button1
Select the “Monitor” tab and check the date and time box to make sure the data is correct

Programming of working parameters
The working parameters are those that allow the SmartUP to correctly collect data during normal operation; they must therefore be filled in with great care.
For more details, please refer to the SmartViewII eto olumulo Afowoyi.

Select the “Programming” TAB
Fọwọsi awọn aaye wọnyi:

Batiri voltage	Batiri voltage igbelewọn
Ah Battery	Iwọn agbara batiri
Current Charger	Charger current rating
Hall Sensor Current	Current sensor rating If the positive terminal cable is routed through the Hall effect sensor several times, indicate the lap number. Example:
Àwòrán SampAkoko ling	Sampling akoko fun ti o ti fipamọ voltage and current graphs (1, .., 127 min / 1, .., 127 sec); (default: 6 min) NOTE: If indicated in seconds, the duration of the cycles will be a maximum of one hour
Sensor Temp. Ext. Present	External Temperature Sensor Selection
Electrolyte Sensor	Input selection and electrolyte level sensor operation
Working Current Threshold	See SmartViewII manual (default: 10A)
Anti Baby Feeding	Fork lock setting for anti-bdocking charging. See §1.7 Locking Functions
Fork Block	Fork lock setting for low battery. See §1.7 Locking Functions
Titiipa rira	Cart Lock Time Setting Button. See §1.7 Locking Functions
Underdischarge	Ti o ba ti voltage is lower than the specified value (V/el) for the specified time (min), the capacity is forced to (100–AhBS)% of the rated capacity Ah Battery if greater than this value (default: 1.70 V/el, 30 min)
Iwọn Batiri Kekere (AhBS)	Discharging below (100-AhBS)% of rated capacity the battery is Reported Discharge (Default: 80%)
Idasilẹ ti ara ẹni	Self-discharge capacity every 24 hours (default: 1%)
Ah Method	Charging Mode Selection: Capacity (Yes) or Time (Off) (Default: YES)
Smart CB Control	Charging selection via SmartCB / SmartEnergy charger
Ounjẹ ọmọ	Time Cycle Count Selection (Opportunity Charging Mode) (default: No)
Auto Alignment Ah	Auto Alignment parameter setting access button
% Maj. Recharge	Ogoruntage energy dissipated during charging (default: 7%)
Ala Voltage 2^ Ipele	Gas development threshold voltage. Determine the transition from the first to the second charging phase and related counts (default: 2.40 V/el)
Akoko gbigba agbara 2^ Ipele	Time from exceeding the Threshold Voltage 2^ Phase to finish charging for timed and alignment cycle refills (default: 2:00 hours)
Aago Aabo 1^ Ipele	Ti o ba ti voltage ko ti de 2^ Ipele Ipele Voltage within this time, An alarm is generated (default: 10:00 hours)
Aago Aabo 2^ Ipele	If the capacity has not reached the rated value within this time from reaching the Threshold Voltage 2^ Ipele, itaniji ti wa ni ipilẹṣẹ (aiyipada: 6:00 wakati)
Ibẹrẹ aifọwọyi	Aṣayan akoko adaṣe adaṣe (ṣiṣẹ nikan pẹlu SmartCB ti a yan)
Ṣeto	Bọtini fun yiyan awọn akoko adaṣe adaṣe lojoojumọ ti iṣẹ fifipamọ agbara (ṣiṣẹ nikan pẹlu SmartCB yan)

Aifọwọyi Alignment laifọwọyi ṣatunṣe itọkasi Ah ninu batiri naa. Awọn paramita settable tọkasi ni atẹle ala ti o kọja eyiti atunse ti ṣe, titete ti o pọ julọ ti o le ṣe ati nọmba awọn samples on which the Auto Alignment is based. Auto Alignment is only allowed if alignment has already been done (see §5 Alignment).
Awọn paramita aiyipada:

Titete Ala	10%
Iṣatunṣe ti o pọju	10%
Nọmba ti samples	8

Press the “Send data to SmartIC” button for the changes to take effect (for greater security, press the “Reread data from SmartIC” button and check that the parameters read are the desired ones)

AKIYESI: The programming of the working parameters can also be done beforehand, before installing the device on the battery.

Programming associations
Associations are those mnemonic parameters to which the work cycles and graphs collected by the SmartUP during normal operation refer. Whenever the cycles and graphs are downloaded to a PC, they will be recognizable and selectable thanks to these parameters.

AKIYESI: the parameters of the associations are optional and there is no constraint on their insertion; however, it is advisable to compile them by carefully choosing the names and codes used, avoiding that there are several devices with the same parameters.
For more details, please refer to the SmartViewII eto olumulo Afowoyi.

Select the “Associations” TAB
Fọwọsi awọn aaye wọnyi:

Onibara	Indicative Testo of the Client
Alagbata	Retailer indicative text
Olumulo	User’s contact details
ID batiri	Indicative text of the battery serial number
Cart ID	Indicative text of the trolley serial number

Press the “Send Data” button and check that a new row appears in the table below with the filled parameters
AKIYESI: Programming associations can also be done earlier in the lab if all parameters are known.

Titete
Lati jẹ ki SmartUP ṣiṣẹ ni kikun ati gba laaye lati gba ati lẹhinna pese gbogbo data, o jẹ dandan lati sọ fun nipa ipo idiyele gidi ti batiri naa. Eyi ni a npe ni ALIGNMENT ati pe o nilo lati ṣee ni ẹẹkan lẹhin ti o so ẹrọ pọ mọ batiri naa. Lakoko iṣẹ deede SmartUP duro ni ibamu nipasẹ wiwọn ati kika idiyele ti nwọle ati fi batiri silẹ. Ilana titete ni ṣiṣe ṣiṣe idiyele ni kikun ibile, ie:

batiri voltage de iye itọkasi ni awọn aye siseto nipasẹ paramita “Aala voltage 2^ Ipele” (aiyipada: 2.4V/el)
continuous recharging after reaching this voltage iye fun akoko kan ko kere ju ti itọkasi ni awọn igbelewọn siseto nipa paramita “Aago gbigba agbara 2^ Alakoso” (aiyipada: 2 wakati).

At the end of the alignment procedure, all the LEDs in the synoptic battery are lit, indicating that the battery is charged.
It is recommended to perform the alignment with the battery not fully charged.

PATAKI: normally it is very simple to carry out the alignment: it is sufficient to recharge with a normal traditional charger. However, sometimes a recharge does not occur with the conditions expressed above. This can be due to various causes, including:

The battery is already charged and the charger charges too short

batiri voltage ko de odo ala voltage 2^ Set phase (this happens, for example, in the case of gel battery chargers)
The charger has a particular type of charging curve.

In these cases it is possible to change the value of the parameters “Threshold voltage 2^ Alakoso" ati/tabi "Aago gbigba agbara 2^ Ipele" nipa didin iye ni ibere lati dẹrọ awọn aseyori ti titete. Sibẹsibẹ, o daba pe ki o maṣe yapa pupọ lati awọn iye aiyipada lati yago fun ipese SmartUP pẹlu alaye ti ko tọ nipa ipo idiyele gidi ti batiri naa.

AKIYESI: As long as the SmartUP is not aligned

The red low battery LED flashes on the synoptic (unless the battery capacity has been forced by using the procedure described in §1.8 Button use)
with SmartView:
- in the Monitor TAB instead of the battery charge status there is the message “Ah alignment not carried out”
- in the OLD Data TAB instead of the graphical representation of the cycle there is the message “Ah alignment not carried out”
- elsewhere there are no references to battery charging.

Paapaa pẹlu SmartUP ti ko ni ibamu, gbogbo awọn iwọn ti ara ni wiwọn lakoko ọmọ (voltages, ṣiṣan, awọn iwọn otutu, awọn akoko) ati awọn aworan ti wa ni ipamọ.
AKIYESI: The alignment procedure must be repeated each time the SmartUP is deenergized.

Download data on USB key

Gbigba data naa, ni afikun si ṣiṣe lati PC nipasẹ SmartViewII software, le wa ni ošišẹ lori a USB stick. Ni kete ti o ba ti fipamọ data sori ọpá USB, o le gbe wọle si PC nipasẹ SmartViewII.

Kin ki nse

Awọn file ti ipilẹṣẹ inu bọtini USB yoo ni ọna kika atẹle
XXXXXXXXXXX_YYMMGGHHMMSS. E2P
Nibo:

XXXXXXXXXXX ➔ Matricola SmartUP

YY ➔ Year
MM Month
DAY ➔ Day

HH ➔ Hour MM ➔ Minutes SS ➔ Seconds
tag. E2P ➔ File Itẹsiwaju

7 Ṣe igbasilẹ data lati bọtini iha si kọnputa

	Insert the USB key into the PC Press the “Import USB Drive” button
	Yan itọsọna nibiti “E2P” wa. files are contained Press the “Open” file
	Duro fun agbewọle data

SmartUP-V1-Smart-Up-Module-Battery-Data-Monitor- (18)

Nigbati agbewọle data ba ti pari, tẹ bọtini “Pade”.

TA1 – Special fitting codes (screws and accessories)

FOTO

Ref.

APAPO

WỌRỌ

SmartUP-V1-Smart-Up-Module-Battery-Data-Monitor- (19)

4× 10 yika ori

SmartUP-V1-Smart-Up-Module-Battery-Data-Monitor- (20)

3× 22 yika ori

Awọn awoṣe

Awọn ẹya ara ẹrọ	SmartUP Ipilẹ	SmartUP PLU
Olumulo lọwọlọwọ	√	√
Voltage sensọ	√	√
Electrolyte sensor		√
EEprom size	64 Kb	128 Kb
Sensọ iwọn otutu		√
Auxiliary analog input		√
ọkọ akero I2C		√
RS485 non-isolated		√
Non-Insulated CANBUS		√
Yiyi		√
USB		√
Pulsante Tan / Pa		√

Awọn pato

Diẹ ninu awọn alaye imọ-ẹrọ to wulo ti pese ni isalẹ.

STORABLE DATA

Storable work cycles	400
Lọwọlọwọ ati voltage awonya data	11400 iṣẹju-aayaamples (deede si awọn ọjọ 47 pẹlu sampling ni gbogbo iṣẹju 6)
Temperature graph data (version only) SmartUP+)	11400 iṣẹju-aayaamples (deede si awọn ọjọ 47 pẹlu sampling ni gbogbo iṣẹju 6)
SmartKey data (SmartUP + version only)	454 iṣẹlẹ
Daily data that can be stored	Working data is stored in memory for the last 30 days

Ṣiṣẹ ibiti

T200 Current Size	Suitable for batteries from 100 to 340Ah
T400 Current Cutter	Suitable for batteries from 350Ah to 740Ah
T800 Current Cutter	Suitable for batteries from 750 to 1500Ah

Awọn ẹya ara ẹrọ itanna

Power supply min ¸ max	18V ¸ 144V
Apapọ agbara agbara	<1.5W
Protection against internal breakage	Via fuse on power port
Contact Relay (SmartUP+ version only)	2A @ 30Vdc (Vmax = 50Vdc/Vac)
Awọn iwọn otutu ti nṣiṣẹ	-20°C ¸ +50°C

ARA ARA

Dimensions (external dimensions)	60mm x 60mm x 130mm
Iwọn	200g
Ìyí ti Idaabobo	IP54

Awọn ibeere Nigbagbogbo

Kini SmartUP ti a lo fun?
SmartUP is designed for monitoring and controlling lead-acid batteries, providing essential data for proper battery management.

Bawo ni MO ṣe rii awọn aiṣedeede pẹlu SmartUP?
Lo Smart naaViewII program to identify abnormalities in the battery cycle, indicated by LED signals on the device.
Kini awọn awoṣe LED ti o yatọ tumọ si?
The LED patterns on SmartUP indicate the battery’s charge level, helping users understand the current state of the battery and any potential issues.

Awọn iwe aṣẹ / Awọn orisun

SmartUP V1 Smart Up Module Batiri Data Monitor [pdf] Ilana itọnisọna
V1 Smart Up Module Data Atẹle Data Batiri, V1, Smart Up Module Data Data Batiri, Atẹle Data Batiri Module, Atẹle Data Batiri

Awọn itọkasi

Itọsọna olumulo

SmartUP V1 Smart Up Module Batiri Data Monitor

SmartUP ọja Alaye

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