Data sheet
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The world's Smallest 13.56 MHz Wireless Charging LSI "ML7630/7631" 13.56MHz(NFC) Wireless Charging Makes It Possible
Advantages of 13.56 MHz(NFC) Wireless Charging
for Compact Devices under 200mW
Save the space for charging
"No constrationts on design" of devices
Compared to charging from a USB connector, the conventional charging method for compact devices such as wearables, the wireless charging system equipped with LAPIS TECHNOLOGY™'s 13.56 MHz(NFC) wireless charging chipset, "ML7630/7631", can save space for charging function.
Using an ultra-compact antenna as well as an antenna for NFC communication simultaneously can reduce the implementation area down to "about 50%" for a compact cube antenna, and "about 75%" for a flexible antenna.
When compared to other charging systems, the 13.56 MHz(NFC) wireless charging that can use ultra-compact antennas offers more "compact implementation".
Wireless Charging Makes Wearable Device
"Completely Water-Proof"
Wearable devices, headsets, and earphones are
expected to be used in underwater or waterfront
Water-proof cap or USB connector to protect the contacts and components required to charge conventional devices from water, along with applicable designs and design limitations are no longer needed for wireless charging.
Non-contact wireless charging makes the design and BOM(Bill of Materials)simple.
The NFC Tag function(NFC Forum Type3 Tag), a prerequisite for wearable device, is also incorporated. Integrating the wireless charging and the NFC Tag function into one single chip also reduces the BOM cost.
Mechanism of Wireless Charging and Charge Capability
Mechanism of 13.56 MHz(NFC) Wireless Charging
The 13.56 MHz(NFC) wireless charging LSI,"ML7630/7631",uses the magnetic field resonance method to supply power through 13.56 MHz magnetic fields.
The magnetic field resonance method supplies power by using two coils as"oscillators", at power transmitter and receiver. Place these coils face-to-face with one coil being connected to the charging and the other coil being received the power.
13.56MHz(NFC) is Capable of Detecting Foreign Object as IC Card
Regardless of its method, the existing wireless charging system can damage the data, if any IC card including credit card or electronic money exists in proximity while strong power is supplied.
13.56 MHz(NFC) wireless charging can reduce the potential risk of damaging data because it detects foreign object in the IC card easily as it uses the same resonance frequency as the IC card.
How about charge capability?
Comparison of"charging time to 90 % of the battery capacity"between USB charge and 13.56 MHz wireless charging 1C charge*
*1C charge : Charging with the same amount of electric current as the discharge capacity of the battery for an hour
When the battery capacity is within 50 mAh, 13.56 MHz wireless charging and USB cable show "almost the same charging time".
Expected devices with a battery capacity within 50mAh are
wearable devices, Bluetooth® headsets, wireless earphones, etc.
Specifications
"ML7630" 13.56MHz(NFC) power receiver LSI
|
Product name |
ML7630 |
|---|---|
|
Data Flash |
1K Byte |
|
Operating Frequency |
13.56MHz |
|
Power Supply |
Generate from magnetic fields |
|
I/F |
NFC Forum Type3 Tag v1.0 I2Cslave × 1ch |
|
Charging Control |
Power receiver/ rectifier/power charging voltage output |
|
ADC (Method) |
10bit(SA type) |
|
Operating Temperature |
- 40°C to + 85°C |
|
Package |
WL-CSP 34 pin 2.6mm × 2.6mm 0.4mm pitch |
Power receiver and Tag function integrated into one chip
- 200mW LDO output
- Wireless charging protocol auto-run
- Monitoring electric current, voltage, and temperature (A/D converter, comparator)
- NFC Forum Type3 Tag
"ML7631" 13.56MHz(NFC) power transmitter LSI
|
Product name |
ML7631 |
|---|---|
|
Data Flash |
1K Byte |
|
Operating Frequency |
13.56MHz |
|
Operating Voltage |
5V |
|
I/F |
I2Cslave × 1ch |
|
Operating Temperature |
- 40°C to + 85°C |
|
Package |
WQFN 32 pin 5.0mm × 5.0mm 0.5mm pitch |
One single chip can contain all the functions necessary for power transmission
- Wireless charging protocol auto-run
- Transmitter output level setting
- Detection of foreign objects between the power transmitter and receiver
- Detection of foreign object between power transmitter and receiver
Evaluation
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Wireless Charging Videos
Introducing the ML763x/ML766x,
a 13.56HMz wireless charging LSI solution.
12:23
Digest Version : Wireless Charging LSI Seminar.:Japanese
10:00
2018, ET Expo Engineering Presentations. 13.56MHz wireless charging chipset ideal for wearable devices.:Japanese
12:23
Introducing the ML763x/ML766x,
a 13.56HMz wireless charging LSI solution.
12:23
Digest Version : Wireless Charging LSI Seminar.:Japanese
10:00
2018, ET Expo Engineering Presentations. 13.56MHz wireless charging chipset ideal for wearable devices.:Japanese
12:23
