JIKONG JK-PB1A16S15P BMS User Manual

1. Prodott Aktarview

The JIKONG JK-PB1A16S15P is an intelligent Battery Management System (BMS) designed for large-capacity series lithium battery packs. It supports Li-ion, LiFePO4, and LTO battery types. This BMS integrates voltage acquisition, high-current active balancing, overcharge, over-discharge, overcurrent, and over-temperature protection, along with a coulomb meter, Bluetooth communication, and host computer monitoring functions.

The protection board utilizes energy transfer active balancing technology, capable of achieving a continuous 1A balance current. This technology ensures battery consistency, extends battery life, and delays aging. The system is compatible with mobile applications (Android and iOS) and PC software for monitoring and parameter adjustment.

JIKONG JK-PB1A16S15P BMS main board, interface board, and display module. — Figure 1: JIKONG JK-PB1A16S15P BMS highlighting key features and components.

1.1. Karatteristiċi Funzjonali

Indikatur tal-istatus tal-Bluetooth LED
Tħaddim remot tal-APP Bluetooth
Kalkolu tal-kapaċità tal-batterija
Supports PC operations
Preċiżjoni għolja voltagakkwist ta' e (±3mV)
Akkwist ta' kurrent ta' preċiżjoni għolja
Wirja tal-iskrin tal-informazzjoni ta' appoġġ
Reġistrazzjoni preċiża tal-ħin
Appoġġ komunikazzjoni RS485
Support CAN communication
Support heating function
Alarm dry contact function
Iċċarġja protezzjoni ta 'kurrent żejjed
Charge overvoltage protezzjoni
Iċċarġja fuq protezzjoni tat-temperatura
Protezzjoni minn temperatura baxxa waqt l-iċċarġjar
Protezzjoni ta 'kurrent żejjed ta' skarika
Skarigu undervoltage protezzjoni
Protezzjoni ta 'skarika fuq temperatura
Protezzjoni ta 'ċirkwit qasir
Battery parallel current limiting function

1.2. Structural Block Diagram

Structural block diagram of the JIKONG BMS showing main components like MCU, active balancing, NTC temperature monitoring, isolation power, dry contact, heating circuit, RS485, CAN, Bluetooth, LCD screen, current sampling, and current limiting. — Figure 2: Internal structural block diagram of the JK-PB1/2A16S-10/15/20P BMS.

2. Kontenut tal-Pakkett

The JIKONG JK-PB1A16S15P BMS package includes the following items:

Kaxxa tal-Ippakkjar
BMS Main Board
Bord tal-Interface
Adapter
RJ45 Network Cable (400mm)
Switch (500mm)
Heating Adapter Cable x1 (170mm)
Cells Total B+ Cable x1 (500mm)
Sampling Line A (900mm)
Sampling Line B (900mm)
Sampling Line C (900mm)
Adapter Cable A (300mm)
Adapter Cable B (300mm)
Adapter Cable C (300mm)
4.3LCD-TTL-P Display (Optional, check your order)

Image showing all components included in the JIKONG BMS package, laid out on a table. — Figura 3: Dettaljat view tal-kontenut tal-pakkett.

Vidjo 1: Il-ftuħ tal-kaxxa u aktarview of the JIKONG BMS components.

3. Speċifikazzjonijiet

The JIKONG JK-PB1A16S15P BMS offers robust performance and features for various energy storage applications.

3.1. Parametri Bażiċi

Parametru	Valur	Unità
Provvista Voltage	20-70	V
Konsum ta' Enerġija Standby	12	mW
Konsum tal-Enerġija Operattiv	1100	mW
Temperatura operattiva	-30 sa 70	°C
Max Number of Collection Strings	16	S
Max Balancing Current	1-2	A
Max Charging Current (15P model)	150	A
Max Discharge Current (15P model)	150	A
Max Instantaneous Current (15P model)	300	A
Max Internal Loop Resistance (15P model)	0.45	mΩ
Protective Plate Size	300 * 100 * 24	mm
Finished Weight	1000	g

For detailed specifications across different models (10P, 15P, 20P, 30P), please refer to the comprehensive product parameters table.

Detailed product parameters table for various JIKONG BMS models, including number of battery strings, balance method, continuous charge/discharge current, maximum discharge current, interfaces, protective plate size, operating temperature, and protection functions. — Figure 4: Comprehensive Product Parameters for JIKONG BMS models.

3.2. Default Parameters

The BMS comes with pre-configured default parameters for various battery types. These can be adjusted via the APP or PC software if needed.

Parametru	Li-ion Default	LiFePO4 Default	LTO Default	Unità
Bilanċ Inizjali Voltage	3	3	2	V
Max Balancing Current	1	1	1	A
Unità Overcharge Voltage	4.2	3.6	2.7	V
Single Overcharge Protection Recovery	4.17	3.54	2.64	V
Monomeru Undervoltage Protezzjoni	2.82	2.6	1.8	V
Single Undervoltage Protezzjoni Irkupru	2.85	2.65	1.85	V
Tfigħ Awtomatiku Voltage	2.8	2.5	1.7	V
SOC-0% Voltage	2.9	2.6	1.85	V
SOC-100% Voltage	4.18	3.5	2.65	V
Trigger Ibbilanċjar Pressjoni Differenzjali	0.01	0.01	0.01	V
Iċċarġjar Dewmien ta 'Protezzjoni ta' Kurrent Żejjed	3	3	3	S
Ħin tar-Rilaxx tal-Ħars tal-Protezzjoni tal-Kurrent Żejjed tal-Ħarġ	60	60	60	S
Dewmien ta' Protezzjoni ta' Kurrent Żejjed ta' Skarigu	300	300	300	S
Ħin tar-Rilaxx tal-Ħin tal-Ħruġ tal-Protezzjoni ta' Kurrent Żejjed tal-Kwittanza	60	60	60	S
Dewmien għall-Protezzjoni ta' Short-circuit	5	5	5	µS
Short Circuit Protection Release Time	30	30	30	S
Charging Overtemperature Protection Temperature	70	70	70	°C
Charging Overtemperature Restore Temperature	60	60	60	°C
Discharge Overtemperature Protection Temperature	70	70	70	°C
Discharge Overtemperature Recovery Temperature	60	60	60	°C
Charging Low Temperature Protection Temperature	-20	-20	-20	°C
Charge Low Temperature to Restore Temperature	-10	-10	-10	°C
MOS Overtemperature Protection Temperature	100	100	100	°C
MOS Overtemperature Recovery Temperature	80	80	80	°C
Indirizz tal-Apparat	0	0	0	/

3.3. Dimensjonijiet Fiżiċi

Diagram showing the dimensions of the JIKONG BMS protective plate: 300mm length, 100mm width, and 24mm height. — Figure 5: Dimensions of the JK-PB1/2A16S-10/15/20P BMS.

Diagram showing the dimensions of the interface board, including various component heights and connector spacing. — Figure 6: Dimensions of the Interface Board.

4. Installazzjoni u Setup

4.1. Dijagrammi tal-Wajers

The JIKONG JK-PB1/2A16S-10/15/20P series protection board is suitable for 7-16 series lithium battery packs. The specific wiring method varies depending on the number of cells in your battery pack. Ensure all connections are secure and correct before powering on.

Wiring diagrams for 16-string and 8-string battery cells connected to the JIKONG BMS, showing connections for total positive, total negative, charger, and load. — Figure 7: Wiring methods for 16-string and 8-string battery cells.

Detailed diagram of the BMS board and interface board connectors, labeling P1, P2, P3 ports, UART, Display/Switch, Heat Function, and Sampling Line ports. — Figure 8: Interface board and BMS board connector definitions.

4.2. Attivazzjoni tal-Apparat

Before powering on the protection board, verify that the balance cables are properly connected and that the P- and B- terminals are correctly wired. Ensure the protection board is securely fixed to the battery pack. Incorrect installation can lead to malfunctions or damage.

The protection board does not have a physical power-on switch. It is designed for charging activation mode, meaning the charger voltage should be 2V higher than the battery voltage. After battery assembly, connect the charger to activate the BMS.

Alternatively, the BMS can be activated via a button (if a display screen is connected) or through the display interface itself.

4.3. L-issettjar tal-parametri

Parameters such as overcharge voltage, discharge undervoltage, overcurrent, temperature limits, and balance settings can be adjusted via the mobile APP or PC software. It is crucial to read the internal parameters of the protection board first before making any changes.

Screenshot of the PC software interface for JIKONG BMS, showing various parameters and settings for real-time status, settings, control, logging, and detailed information. — Figure 9: PC software interface for parameter adjustment.

4.4. Parallel Function Setup

The parallel function allows multiple BMS units to be monitored simultaneously by a host computer via an RS485 bus. To use this feature, you will need a USB to RS485 serial port cable and the JIKONG upper computer software.

The system supports up to 16 BMS units. Each BMS must have a unique address from 0 to 15. BMS with address 0 acts as the host, and addresses 1-15 are for slave units. The addresses are set using DIP switches on the interface board.

Diagram showing the DIP switch settings for various slave addresses (1, 2, 3, 4, 8) for the JIKONG BMS parallel function. — Figure 10: DIP switch settings for BMS addresses in parallel configuration.

Diagram illustrating the parallel monitoring setup for JIKONG energy storage BMS, showing multiple BMS units connected via RJ45 network cables to a host computer via a USB to RS485 serial port cable. — Figure 11: Parallel monitoring setup for JIKONG energy storage BMS.

4.5. Installazzjoni APP

The mobile APP for the JIKONG BMS supports Android (version 7 minimum) and iOS operating systems. Scan the QR code below to download the APP.

QR code for downloading the JIKONG BMS mobile application. — Figure 12: QR code for Mobile APP download.

5. Operazzjoni

The JIKONG BMS offers various functions to manage and protect your battery system. These functions can be monitored and controlled via the mobile APP or PC software.

5.1. Active Equalization

The BMS actively balances cells by transferring energy from higher-voltage cells to lower-voltage cells. This process is automatic when the voltage difference between any two strings exceeds a set threshold. The default balance current is 1A/2A. It is recommended that the balance current does not exceed 0.2C of the battery capacity. This function can be enabled or disabled via the BMS control page in the APP.

Diagram illustrating the active balancing principle of the JIKONG BMS, showing energy transfer between battery cells to achieve voltage bilanċ. — Figure 13: Active Balancing (Lossless Balancing) principle.

Comparison of balancing efficiency between ordinary protection boards and JIKONG Home storage BMS, highlighting the higher balanced current of 1A-2A in JIKONG BMS. — Figure 14: Efficient balance prolongs battery life.

5.2. Wiri Interface

The BMS includes a reserved display interface. Users can connect an optional JIKONG display to conveniently view battery information. The display shows real-time data such as voltage, current, temperature, SOC (State of Charge), alarms, and cycle counts.

Image showing multi-screen display options for JIKONG BMS data, including mobile APP, PC software, and a dedicated home storage display unit. — Figure 15: Multi-screen display data connection options.

5.3. Funzjoni tat-Tisħin

The BMS is equipped with a heating function to prevent battery performance degradation in low-temperature conditions. It uses a resistance heater or heating film to warm the battery. The designed heating current is 10A. Users can enable or disable this function via the APP. It is recommended to use a temperature control switch (45°C to 65°C normally closed type) in series with the heating circuit as a secondary protection.

5.4. Dry Contact Function

The BMS features two dry contacts for controlling external devices like alarms or cooling fans. When the BMS detects conditions such as over-temperature, overcharge, or over-discharge, the alarm interface can trigger a buzzer or activate a fan. Users can select up to two trigger conditions and configure them via the APP.

Wiring diagram for dry contact function, showing connection to a buzzer and DC power supply. — Figure 16: Dry contact wiring diagram for external alarm equipment.

5.5. Karatteristiċi ta 'protezzjoni

Charge Overvoltage Protezzjoni: Prevents overcharging by shutting off charging when any cell voltage exceeds the set limit. Charging resumes when all cell voltages drop below the recovery threshold.
Kwittanza Undervoltage Protezzjoni: Prevents over-discharging by shutting off discharge when any cell voltage drops below the set limit. Discharge resumes when all cell voltages rise above the recovery threshold. An automatic shutdown voltage is also configurable.
Charge Overcurrent Protection: Protects against excessive charging current. If the charging current exceeds the set continuous current for a specified delay, charging is stopped. It resumes after a set release time.
Discharge Overcurrent Protection: Protects against excessive discharge current. If the discharge current exceeds the set continuous current for a specified delay, discharge is stopped. It resumes after a set release time.
Protezzjoni minn temperatura żejda: Shuts off charging/discharging if the battery temperature exceeds the set over-temperature limit. Operation resumes when the temperature falls below the recovery threshold.
Protezzjoni ta 'Temperatura Baxxa: Shuts off charging if the battery temperature falls below the set low-temperature limit. Charging resumes when the temperature rises above the recovery threshold. For extremely cold environments, using the heating function is recommended.
Protezzjoni Short Circuit: Automatically protects against short circuits. Users can adjust the short-circuit protection delay and recovery time via the APP.

5.6. Swiċċ ta 'Emerġenza

The emergency switch function allows the BMS to maintain charge and discharge for 30 minutes when activated via the APP, even if issues like over-temperature, over-discharge, or cell drops occur. This provides a critical window for emergency use.

5.7. Intelligent Sleep

The intelligent sleep function conserves battery energy by putting the BMS into a low-power state when it's in standby (charging/discharging current less than 1A for 26 consecutive hours). The BMS can be reactivated by pressing a button or connecting a charger.

5.8. Communication Function

The BMS supports CAN and RS485 communication. The default CAN communication rate is 250K. Users can select the appropriate protocol in the APP based on their inverter brand and specifications. Two RS485 interfaces are available: RS485-1 for communication with inverters and other settings, and RS485-2 for parallel battery pack connection and communication with the upper computer. The RS485-2 has a default baud rate of 115200. The communication address can be set via DIP switches (0-15).

Mobile APP interface for selecting UART protocol, showing a list of compatible inverter communication protocols like Deye, Pylontech, Growatt, Victron Energy, INVT, Goodwe, SMA, Voltronic Power, SRNE, and MUST. — Figure 17: Mobile APP interface for selecting UART protocols.

Table of supported CAN protocols for both mobile APP and host computer, listing various inverter brands and their corresponding protocols. — Figure 18: Supported CAN Protocols for APP and PC.

5.9. Charge Current Limiting Function

The BMS includes a charge current limiting function. Users can set the continuous charging current, overcurrent delay, and release time via the APP. If the charging current exceeds the set limit, the function activates, maintaining the charging current at approximately 10A to protect the battery.

6 Issolvi l-problemi

This section provides guidance on common issues and how to interpret BMS status indicators.

6.1. Indikaturi LED

The interface board features LED indicators to help diagnose the BMS status:

Status	ON/OFF	ĠEJR	ALM	L1-L6
Qawwa Mitfi	OFF
Balance (Normal)	ON	Teptip	OFF	Display ibbażat fuq il-batterija
Charging (Normal)	ON	Teptip	OFF	Display ibbażat fuq il-batterija
Charging (Overcurrent, Overtemp, Overvoltage, Charging Failure)	ON	Teptip	Teptip	Display ibbażat fuq il-batterija
Discharge (Normal)	ON	Teptip	OFF	Display ibbażat fuq il-batterija
Discharge (Overcurrent, Overtemp, Undervoltage, Discharge Failure)	ON	Teptip	Teptip	Display ibbażat fuq il-batterija
Other Alarms (Password not changed, Short circuit, Temperature abnormal)	ON	Teptip	Teptip	Display ibbażat fuq il-batterija

Nota: When the device address is set to 0 (host), the last LED indicator L6 blinks. For slave units (addresses 1-15), the LED is off and blinks after successful communication with the host. 'ON' means the LED is lit, 'OFF' means the LED is off.

6.2. Capacity Indicator LEDs

The LEDs (L1-L5) on the interface board also indicate the battery's state of charge:

Firxa tal-Kapaċità	Charging (L5-L1)					Discharging (L5-L1)
0-20%	OFF	OFF	OFF	OFF	ON	OFF	OFF	OFF	OFF	ON
20-40%	OFF	OFF	OFF	ON	ON	OFF	OFF	OFF	ON	ON
40-60%	OFF	OFF	ON	ON	ON	OFF	OFF	ON	ON	ON
60-80%	OFF	ON	ON	ON	ON	OFF	ON	ON	ON	ON
80-100%	ON	ON	ON	ON	ON	ON	ON	ON	ON	ON

7. Għajnuniet għall-Utenti

Always double-check all wiring connections, especially balance cables and main power connections (P- and B-), before powering on the BMS to prevent damage.
When adjusting parameters via the APP or PC software, make small, incremental changes and monitor the battery's behavior.
For optimal battery life, ensure the active balancing function is enabled and configured correctly for your battery type and capacity.
In cold environments, utilize the heating function to maintain battery performance and longevity.
Regularly check the BMS status via the APP or PC software to monitor battery health and identify any potential issues early.
If using the parallel function, ensure each BMS has a unique address set via the DIP switches for proper communication and monitoring.

8. Garanzija u Appoġġ

The JIKONG JK-PB1A16S15P BMS comes with a 3-year warranty, ensuring reliability and peace of mind for your energy storage system.

For further detailed instructions, technical diagrams, and advanced troubleshooting, please refer to the official user manual PDF available at: JIKONG BMS User Manual (PDF).

Image showing the aluminum alloy heat sink design of the JIKONG BMS, emphasizing its role in reducing temperature rise and improving reliability. — Figure 19: Aluminum alloy heat sink for improved reliability.

Sploda view of the JIKONG BMS components, highlighting the cooling aluminum alloy, flexible wiring terminals, high-performance MCU, parallel current limiting module, and low internal resistance MOS. — Figure 20: Precision Aesthetics, Peak Performance: Setting the Standard for Quality.