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Model
Nominal Voltage
Nominal Capacity
Nominal impedance
Dimension
Charge-discharge standard
Approx Weight
(V)
(mAh)
(mQ)
Diameter
Height
Charge
Discharge
≈g
ICR10220
3.7
130
<150
10
22
0.5C-1C
0.5C-1C
4.1
ICR10440
3.7
350
<120
10
44
0.5C-1C
0.5C-1C
9
ICR14430
3.7
650
<100
13.8
42.8
0.5C-1C
0.5C-1C
17
ICR14500
3.7
900
<80
14
50
0.5C-1C
0.5C-1C
19.5
ICR17280
3.7
600
<100
16.3
28
0.5C-1C
0.5C-1C
15
ICR17335
3.7
700
<100
16.3
33.5
0.5C-1C
0.5C-1C
18
ICR18500
3.7
1400
<70
18.1
50
0.5C-1C
0.5C-1C
33
ICR18650
3.7
2000
<50
18.1
64.8
0.5C-1C
0.5C-1C
45
ICR18650P
3.7
2000
<40
18.1
65
0.5C-1C
3C-5C
45
ICR18650P
3.7
2200
<40
18.1
65
0.5C-1C
3C-5C
45
ICR18650
3.7
2600
<70
18.1
64.8
0.5C-1C
0.5C-1C
45
ICR26650
3.7
3500
<30
26
65.5
0.5C-1C
0.5C-1C
85
ICR26650P
3.7
5000
<30
26
65.5
0.5C-1C
0.5C-1C
85
ICR18650P
3.7
1500
<15
18.1
64.8
1C
10C-15C
47
ICR26650P
3.7
2200
<15
26
64.8
1C
10C-15C
64
IFR14430E
3.2
400
<115
13.8
43
0.5C-1C
0.5C-1C
15
IFR14500E
3.2
400
<95
13.8
50.2
0.5C-1C
0.5C-1C
15.5
IFR14500E
3.2
650
<80
13.8
50.2
0.5C-1C
0.5C-1C
17.8
IFR18500E
3.2
600
<80
18
50
0.5C-1C
0.5C-1C
19.5
IFR18500E
3.2
1200
<80
18
64.8
0.5C-1C
0.5C-1C
30.4
IFR18650E
3.2
1500
<65
18
64.8
0.5C-1C
0.5C-1C
40.5
IFR18650E
3.2
1700
<80
18
65.3
0.5C-1C
0.5C-1C
41.2
IFR26650E
3.2
3400
<20
26
65.3
0.5C-1C
0.5C-1C
87
IFR18650P
3.2
1100
<20
18
65.3
1-3C
10-25C
40
IFR26650P
3.2
2400
<20
26
65.3
1-3C
10-25C
82
NXP's i.MX 6ULL series is a high-performance, low-power application processor based on the ARM Cortex-A7 architecture, specifically designed for automotive, consumer electronics, and industrial applications. With a maximum frequency of up to 900MHz, it integrates a power management unit (PMU) and 128KB of L2 cache, ensuring reliable performance while minimizing power consumption. The chip is optimized for cost-effectiveness, making it an ideal choice for IoT gateways, edge devices, and smart consumer electronics.
The i.MX 6ULL offers excellent performance and energy efficiency, making it well-suited for modern consumer and automotive electronics. It features a built-in PMU that simplifies external power supply design and streamlines power-up sequencing. The processor supports a wide range of memory interfaces, including 16-bit LPDDR2, DDR3, DDR3L, NAND Flash, NOR Flash, eMMC, as well as various communication protocols such as QSPI, I2C, CAN, UART, USB, and Ethernet. This flexibility makes it highly adaptable to different system requirements.
In terms of power efficiency, the i.MX 6ULL can operate at voltages as low as 1.5V, with multiple high-speed serial interfaces like I2S/SAI (up to 1.4 Mbps), UART (up to 5.0 Mbps), eCSPI (up to 52 Mbps), I2C (up to 400 kbps), and Ethernet (up to 100 Mbps). It also includes a digital audio interface (SPDIF), a camera interface supporting up to 16-bit resolution, and two 12-bit ADCs. These features make it suitable for a wide range of applications, from smart home systems to automotive infotainment.
The i.MX 6ULL is designed to perform reliably in harsh environments, with ESD protection that meets HBM (Human Body Model) standards up to 2kV and CDM (Charged Device Model) up to 500V. It operates within a broad temperature range of -40°C to 150°C, making it ideal for use in industrial control systems and automotive applications where stability under extreme conditions is essential.
In terms of development support, the i.MX 6ULL runs on Linux, and NXP provides comprehensive technical documentation, including driver development guides, application demos, and system image compilation instructions. This reduces the learning curve for developers and allows them to quickly bring their products to market. If issues arise, users can refer to detailed technical notes or contact ZLG for further assistance.
Compared to older ARM9-based core boards, the i.MX 6ULL offers lower power consumption, better performance, and more peripheral interfaces. It supports up to 8 UART channels, 2 Ethernet ports, 2 CAN channels, and other industrial bus interfaces. An industrial-grade version is available, tested to operate stably between -40°C and +100°C. This makes it suitable for vehicle information processing, home energy management, IoT gateways, and other advanced applications.