AC EV Charger Wallbox Series Product Series Archive
AC wallbox variant guide
AC EV charger wallbox variants with socket, cable, LCD, TFT, and OCPP options
The AC EV Charger Wallbox Series groups Amprisen 7kW, 11kW, and 22kW wall-mounted chargers so buyers can compare output mode, display, current rating, and smart charging options before inquiry.
The AC EV Charger Wallbox Series groups 7kW, 11kW, and 22kW wallbox variants so buyers can compare power, socket or cable output, LCD or TFT interface, and OCPP-ready configuration on one page.
Specification focus for buyers
| Decision area | What to confirm |
|---|---|
| Power and phase | Confirm 7kW single-phase or 11kW/22kW three-phase charging based on grid capacity and vehicle onboard charger. |
| Connector and output | Select Type 1, Type 2, GBT, or NACS planning, then choose socket or tethered cable output. |
| Smart functions | Confirm OCPP, RFID, app control, DLB, WiFi, Bluetooth, Ethernet, or 4G only when the site needs managed operation. |
| Metering and protection | Check Dynamic Load Balancing for shared power sites, MID metering for billing or reimbursement, and RCD requirements such as Type A, Type B, or 6mA DC leakage protection. |
| Use case | Separate private home charging from apartment, hotel, workplace, parking operator, and fleet scenarios. |
Key capabilities
- 7kW, 11kW, and 22kW AC wall-mounted charging
- Socket or tethered cable model families
- LCD and TFT touch screen configurations
- Smart charging options for app and OCPP project needs
Best-fit applications
- Private home charging
- Shared residential parking
- Office and hotel charging
- Commercial AC charger distribution
Selection checklist
- Match charger power to local phase and site capacity
- Confirm Type 2 cable or socket preference
- Choose screen and user-interface level
- Confirm backend, load balancing, certification, and branding needs
Procurement fit
This wallbox series fits distributors and project buyers comparing 7kW, 11kW, and 22kW AC chargers without spreading near-identical socket, cable, LCD, TFT, and OCPP options across too many separate pages.
Market and standards notes
Choose local phase and power first, then decide Type 2 socket or tethered cable, LCD or TFT interface, Bluetooth app, OCPP-ready configuration, branding, and certification requirements.
Implementation risks to confirm
Confirm whether the buyer needs private home charging, shared parking, workplace control, or commercial operation, because output mode, screen choice, backend needs, and installation documentation change by scenario.
Common buyer questions
What power range is common for AC EV chargers?
AC EV chargers commonly cover 7kW single-phase and 11kW or 22kW three-phase configurations, depending on the target grid and vehicle onboard charger capacity.
Are AC EV chargers suitable for commercial sites?
Yes. Commercial AC chargers can use OCPP, RFID, app control, load management, and socket or cable configurations for workplaces, apartments, hotels, and parking operators.
When do AC EV charger projects need Dynamic Load Balancing?
Dynamic Load Balancing is useful when several chargers share limited site power, such as apartments, workplaces, hotels, or fleet parking. It helps distribute available current and reduce overload risk when multiple vehicles charge at the same time.
Do AC EV charger buyers need MID metering or RCD protection?
MID metering may be required when charging energy records are used for billing or reimbursement. RCD requirements depend on local electrical rules and project design, so buyers should confirm Type A, Type B, or 6mA DC leakage protection needs before ordering.
What should buyers confirm before ordering AC chargers?
Confirm local connector standard, input phase, max current, wall or floor mounting, IP rating, communication method, backend platform, certification requirements, and branding needs.