Hefei V216WPC Wireless Charging User Manual
- June 16, 2024
- HEFEI
Table of Contents
Hefei V216WPC Wireless Charging
Specifications
Function Parameter | Value | Remark |
---|---|---|
Input voltage | 9-16V | Max 2.5A @ 12V |
Input current | 2.5A (max) @ 12V | |
Output voltage | 12V/5V | 1.25A @ 12V, 1A @ 5V |
Output current | 1A @ 5V | |
Output power | 15W (max) | |
Standby current | 110mA (average current) | |
Sleep current | 0.1mA | |
Static current | N/A | |
System conversion efficiency | 70% | |
Effective charging distance | 4mm | Coil distance |
Effective charging range | 310mm | Distance between transmitting and receiving |
coils
WPC Working frequency| N/A|
NFC Working frequency| N/A|
Working temperature| N/A|
Storage temperature| N/A|
Protection grade| IP52|
Qi certification| 1.2.4|
NFC communication protocol| ISO14443A|
Overview
The product is a wireless charging device provided by Hefei InvisPower Co.,
Ltd. It is designed to provide charging service for wireless charger receivers
that support the Qi standard and canalso be used to start the vehicle with
NFC.
Product Index Function Parameter
The following are the key function parameters of the product:
-
Input voltage: 9-16V, maximum 2.5A @ 12V
-
Input current: 2.5A (max) @ 12V
-
Output voltage: 12V/5V
-
Output current: 1A @ 5V
-
Output power: 15W (max)
-
Standby current: 110mA (average current)
-
Sleep current: 0.1mA
-
System conversion efficiency: 70%
-
Effective charging distance: 4mm (coil distance)
-
Effective charging range: 310mm (distance between transmitting
and receiving coils) -
Protection grade: IP52
-
Qi certification: 1.2.4
-
NFC communication protocol: ISO14443A
Document revision of resume
Num. | Ver. | Content | Date | Make BY | Remark |
---|---|---|---|---|---|
1 | V1.0 | first edition | 2022/03/10 | HUCHENG | |
Overview
Background
The content described in this document applies to Geely Auto V216 (WNSM) project.
Product function description
This product can provide charging service for wireless charger receiver that supports Qi standard, and starting the vehicle with NFC.
Product index function parameter
Num. | Technical index function | Design parameter value identification | Remark |
---|---|---|---|
1 | Input voltage | 9-16V | |
2 | Input current | 2.5A(max)@12V | |
3 | output voltage | 12V/5V | Output voltage: The output voltage at the receiving |
end
4| output current| 1.25A(12V)|
1A(5V)
5| output power| 15W(max)| Compatible with 5 w
6| Standby current| ≤110mA(average current)| You can charge your phone by
putting it on
7| Sleep current| <0.1mA|
8| static current| NA| Is not a normal power supply does not do the
requirement
9| System conversion
efficiency
| ≥70%| Coil distance 4mm test
10| Effective charging distance| 3~10mm| The distance is the distance between
the transmitter coil and the receiver coil
11| Effective charging range| 70*20mm| (Distance between transmitting and
receiving
coils7mm)
12| WPC Working frequency| 127.7±10KHZ| 65.69 dBuA/m @10m
13| NFC Working frequency| 13.56MHz±10%| 42 dBuA/m @10m
14| Working temperature| -35℃~+85℃|
15| Storage temperature| -40℃~+90℃|
16| Protection grade| IP52|
17| Qi certification| QI 1.2.4|
18| NFC communication protocol| ISO14443A|
Hefei InvisPower Co., Ltd
19| Protection function| Over temperature protection, over current protection, over voltage protection and under- voltage protection and other protection
functions
|
---|---|---|---
Connector model and interface definition
PCBConnector model | brand | Type of wire end connector | Brand |
---|---|---|---|
34793-0080 | Molex | 34791-0180 | Molex |
PINNum. | definition | Operating voltage | Operating current |
signal source
---|---|---|---|---|---
1| BAT-| GND| 3A(max)| Input| Battery
2| CAN_H| 2~4.5V| 0.1A| I/O| Car
3| CAN_L| 0.5~3V| 0.1A| I/O| Car
4| NA| NA| NA| NA|
5| NA| NA| NA| NA|
6| NA| NA| NA| NA|
7| NA| NA| NA| NA|
8| BAT+| 9~16V| 3A(max)| Input| Battery
Connector diagram
Product design reference materials
Normative reference documents
Standard no.| name of the standard
ISO/IEC 17025| General requirements for the competence of testing and
calibration laboratories
---|---
ISO 11452-
1:2005/Amd.1:2009
| Road vehicles — Component test methods for electrical disturbances from
narrowband radiated electromagnetic energy — Part 1: General principles and
terminology
CISPR 25 3rd Ed| Limits and methods of measurement of radio disturbance
characteristics for the protection of receivers used on board vehicles
SAE J551-5 Rev JAN2004| Performance Levels and Methods of Measurements
of Magnetic and Electric Field Strength from Electric Vehicles, Broadband, 9
kHz To 30 MHz.
SAE J551-5 Rev MAY2012| Performance Levels and Methods of
Measurements of Magnetic and Electric Field Strength from Electric
Vehicles,Broadband, 150 kHz
To 30 MHz.
MIL-STD-461F| United States Department of Defense Interface Standard,
Requirements for the Control of Electromagnetic Interference Characteristics of Subsystems and Equipment
ISO 11452-1-2005
and Amd 1:2008
| Road vehicles – Component test methods for electrical disturbances from
narrowband radiated electromagnetic energy – Part 1: General principles and
terminology
ISO 11452-2-2004|
- Road vehicles, Electrical disturbances by narrowband radiated electromagnetic energy – Component test methods Part 2 –
- Absorber-lined shielded enclosure
ISO 11452-4-2011| Road vehicles – Component test methods for electrical
disturbances from narrowband radiated electromagnetic energy – Part 4: Harness
excitation methods
ISO 11452-8-2007| Road vehicles — Component test methods for electrical
disturbances from narrowband radiated electromagnetic energy — Part 8:
Immunity to magnetic fields
ISO 11452-9-2012|
- Road vehicles — Component test methods for electrical disturbances from narrowband radiated electromagnetic energy —
- Part 9: Portable transmitters
ISO 7637-1-2002 and
Amd 1:2008
| Road vehicles, Electrical disturbance by conduction and coupling Part 1
–Definitions and general considerations
ISO 7637-3-2007| Road vehicles, Electrical disturbance by conduction and
coupling Part 3: Electrical transient transmission by capacitive and inductive
coupling
ISO 10605-2008 and
Cor 1:2010
| Road vehicles – Test methods for electrical disturbances from electrostatic
discharge
ISO 16750-4-2010| Road vehicles — Environmental conditions and testing for
electrical and electronic equipment — Part 4: Climatic loads
Product function description
Description of product structure
Appearance and requirements
The appearance should be clean and tidy, and there should be no dents, obvious scratches, cracks, deformations, burrs, mildew and other defects on the surface. Surface coating should not bubble, crack, fall off; Parts should be fastened without looseness.
Structural dimension/material/weight composition
The main size of the wireless charging module (excluding the mounting foot and
connector bulge) : 1307320mm (length width height).Overall size
(including mounting feet and connector protrations) : 1617320mm (length
width height).
The material, weight and quantity of materials used in the structure are shown
in the following table:
NO. | name | material | weight (g) | quantity |
---|---|---|---|---|
1 | Top cabinet | PC+ABS | 34 | 1 |
2 | Lower sink | SGCC | 53 | 1 |
3 | PCBA | Components | 75 | 1 |
4 | Shield | AL5052 | 29 | 1 |
5 | Dam-board | PC+ABS | 1 | 1 |
6 | Triangle screw | C1018 | 1.5 | 4 |
7 | Heat-conducting silica |
gel sheet
| Thermal conductive silicone| 2| 2
Total weight| About200g
Top cabinet
PC+ABS material, matched with the lower shell to protect the internal structure of wireless charging.
Hefei InvisPower Co., Ltd
Lower sink
SGCC material is used to protect the wireless charging internal structure with the lower cover. It provides the installation frame, heat dissipation of the whole machine, IP protection for PCBA, and completes the coordination with the interior of the vehicle.
Shield
Provide support and paste surface for coil and strip separation disk assembly.
Coil with separation plate assembly
Function, material, molding process, performance, MP-A13 coil.
Description of waterproof and dustproof module
The flat upper cover and the lower shell are bonded by a snap structure, and the upper cover and the lower shell contact face to face, which plays a certain dust-proof and water-proof role.
Module installation instructions
After the module is located by two positioning columns on the interior panel, the remaining 4 holes are fastened by screwing in self-tapping screws.
Product packaging instructions
The specific packaging requirements entered by the customer shall prevail. If there is no mandatory requirement, the packing form is suggested to follow the general scheme of pulp mold and vertical insert as shown below. The outer packing carton is in the form of 0201 carton.
EU&UKCA declaration of conformity
Hereby, Hefei Invispower Co.,Ltd declares that the radio equipment Model-
Wireless charging (model: WPC-15SN-21493) is in compliance with Directive
2014/53/EU.
Hereby, Hefei Invispower Co.,Ltd declares that the radio equipment Model-
Wireless charging (model: WPC-15SN-21493) is in compliance with UK Radio
Equipment Regulations (SI 2017/1206).
FCC and ISED
This device complies with part 15 of the FCC rules and with RSS-Gen,RSS-216 rules of Canada.
Operation is subject to the following two conditions
- This device may not cause harmful interference, and
- This device must accept any interference received, including interference that may cause undesired operation.
Any changed or modifications not expressly approved by the party responsible for compliance could void the user’s authority to operate this equipment.
FCC RF Radiation Exposure Statement
This equipment complies with FCC RF Radiation exposure limits set forth for an uncontrolled environment. This device and its antenna must not be co-located or operating in conjunction with any other antenna or transmitter. This equipment should be installed and operated with a minimum distance of 20cm between the radiator and your body.
Note: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:
- Reorient or relocate the receiving antenna.
- Increase the separation between the equipment and receiver.
- Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.
- Consult the dealer or an experienced radio/TV technician for help
Les changements ou modifications non expressement approuves par LG Vehicle
Components Company pourraient annuler l’autorite de l’utilisateura utilizer
l’equipement.
le corps de l’utilisateur final.
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