Lenovo A1000 is an inexpensive, but very productive and beautiful smartphone, which is preferred by many users. It owes its popularity to its favorable price-technical characteristics ratio. However, this good device needs to periodically update its software and change the firmware if problems arise or the owner’s “special” requirements for the software component of the gadget. Today we will tell you how to install and update the Lenovo A1000 firmware.
Downloading and installing drivers
Before performing any manipulations with the phone software, you should install drivers so that the Lenovo A1000 firmware program can “see” the gadget.
To install drivers, you must:
- Disable driver digital signature verification in Windows. This is necessary for the operating system to issue rights for the driver, which is needed for the PC to interact with the mobile device. For this:
- Reboot your operating system;
- When loading, press the "F8" button;
- In the boot options window that appears, select “Disable mandatory driver signature verification”;
- Wait until your PC boots completely.
The check is now disabled. You can move on to the second step.
- Connect the turned on device to the PC using a USB cable.
- Enable USB Debugging on your phone. To do this:
- In “Settings”, go to the “About smartphone” section, and there select “Device information”;
- Find “Build number” and type on it until the notification “You are now a developer” appears.
- Return to the settings menu and find the “For Developers” section;
- Select USB Debugging. Put o. In the new window, click “Ok”.
- Install the USB driver. You can download it by following the link https:/1/yadi.sk/d/fG-DvhPA3HBrAR. To install, unpack the downloaded archive and run the installer. The installation process is standard - just click on “Next” in the first and all subsequent windows.
How to flash Lenovo A1000
Installation and updating can be done with your own hands using programs for firmware, free of charge, the links contain both original, that is, stock, official (not modified), and custom firmware, that is, alternative, all with instructions.
- First you need to download the firmware by selecting one of the options below. Along with it in the archive is the necessary set of programs (TWRP and others).
- Next, unpack the archive and find the file “instructions_rootgadget.txt“. The archive can be unpacked using any archiver (7ZIP, WinRar and others).
- The firmware file contained in the zip archive must be downloaded to a memory card or smartphone memory.
- For other information and sequence of actions, see the text instructions.
Lenovo A1000 firmware
Choose what you like, but it is best to download the most modern versions, they have more optimized energy consumption and other joys of life.
- Android Pie 9.0 is a flagship OS, one might say, but still a little unfinished. URL: yourtopfile.info/android9pie
- 8.0 Oreo is an excellent option, with a minimum of bugs and rich functionality, but version 9 is certainly better. URL: yourtopfile.info/android8oreo
- 7.0 Nougat is a stable version in all respects, it works even on low-power hardware. URL: yourtopfile.info/android7nougat
- 6.0 Marshmallow - versions 5 and 6 are already really old, although they were once the pinnacle of progress. But if you switch to them from versions 3 or 4, then of course the difference is very noticeable. URL: yourtopfile.info/android6
- Android 10 URL: yourtopfile.info/android10
- Android 11 URL: yourtopfile.info/android11
Download and Install Research Download
To install the required firmware version on your device, you will need not only the firmware file, but also the Research Download program. This software, for all its apparent simplicity, is a very powerful tool that should be used with extreme caution. This program is suitable for users who have already tried to flash the device in other ways, as well as for those who have encountered serious software problems. With this Lenovo smartphone flasher you can easily solve all software problems.
Why update the firmware on your Android smartphone?
Everyone is motivated by different reasons.
- There are problems with the front selfie camera; let’s say it takes pictures that are far from the quality indicated on the lens.
- There is a problem with the display response, or more specifically, with the response speed.
- I would like to understand what the new Android is.
- I'm tired of the old version of Android and want new features and capabilities.
- The phone doesn't turn on.
- The phone battery has stopped charging.
Firmware
Now let's move on to the main thing - how to flash a Lenovo phone. To do this you need:
- Temporarily disable your antivirus.
- Launch Research Download.
- In the upper left corner of the program window, find “Load Packet” (key with a gear icon). Using it, select the firmware file. It must have a *.pac extension.
- After selecting, click on the “Open” button, and the process of unpacking the archive with the firmware will begin.
- Upon completion of unpacking, o will appear in the lower right corner, and at the top - the name of the firmware and its version.
- After making sure that the gadget is not connected to the PC, click on the “Start Downloading” button (top middle).
- Turn off the device, remove and insert the battery, hold down the volume up button and, while holding it, connect the A1000 to the USB port.
- The message “Downloading...” that appears in the “Status” field will indicate that the firmware process has started. It will take about 15 minutes.
- The “Finished” status indicates the end of the process.
- Click on “Stop Downloading” and close the program.
- Disconnect the gadget from the computer, “perturb” the battery and start the phone using the activation key (in the usual way).
Detailed technical specifications
Make and model
Make and model of the device, and alternative names (if any).
Brand Device manufacturer company. | Lenovo |
Model Device name. | A1000 |
Design
Appearance of the device including dimensions, weight, volume, colors and materials.
Width The horizontal side of the device when used in standard orientation. | 64 mm (millimeters) |
Height The vertical side of the device when used in standard orientation. | 124.5 mm (millimeters) |
Thickness The cross-sectional size of the device. | 10.6 mm (millimeters) |
Weight How much does the device weigh excluding the case, SIM and memory cards and other additional elements. | 132 g (grams) |
Volume Approximate value calculated using the formula: length times width times height. | 84.46 cm³ (cubic centimeters) |
Colors What colors is the device available in? | Black White |
Housing materials What materials is the body made of? | Plastic |
System on a Chip (SoC)
A system on a chip, a single-chip system (System on a Chip, SoC) is when several systems performing different device functions are connected on one chip.
System on a Chip (SoC) A single-chip system that contains components such as a processor, graphics accelerator, memory units, communication interfaces, etc., as well as software for the operation of the system. | Spreadtrum SC7731G |
Central processing unit (CPU)
Central processing unit (CPU) The main component of the device is responsible for calculations and data processing. | ARM Cortex-A7 |
Technical process What technological process is used to make the chip? The smaller the process technology, the better - the chips consume less power and generate less heat. | 28 nm (nanometers) |
Processor size Processor capacity is a parameter that indicates how many bits of data a processor register processes in 1 clock cycle. This is usually 32 or 64 bits. | 32 bit |
Instruction Set Architecture Instruction set architecture (ISA) is a programmable part of the microprocessor core used by software to control the operation of the processor. | ARMv7 |
Number of processor cores The processor can be either single-core or multi-core. The performance of the processor depends on the number of cores (threads). The more cores working simultaneously, the higher the power consumption, so in mobile devices all cores are used only under high load. | 4 |
CPU clock speed Clock speed is the number of operations per second that a processor or its core can achieve. The higher the frequency, the higher the overall performance of the device, but performance also depends on the processor architecture and the number of cores. | 1300 MHz (megahertz) |
Graphics Processing Unit (GPU)
Graphics Processing Unit (GPU) The graphics processing unit (GPU) is used to process and display graphics - 3D effects, games, interfaces and other visual elements. Due to the pipeline architecture, the GPU is many times more efficient in graphics processing than the processor. | ARM Mali-400 MP2 |
Number of GPU cores Similar to a processor, a GPU can have one core or several. The number of cores (threads) determines the performance and amount of information processed. The more cores, the better. | 2 |
GPU clock speed Clock speed is the number of operations per second that the GPU or its core is capable of achieving. The higher the frequency, the higher the speed of the processor, and therefore the number of tasks it can solve. | 400 MHz (megahertz) |
Random access memory (RAM)
Amount of random access memory (RAM) RAM (Random Access Memory, RAM, RAM) is temporary memory (works only while the device is running), which stores data and code for the operational operation of programs and applications. The more RAM, the more programs you can run simultaneously without loss of performance (there will be fewer “brakes”). | 1 GB (gigabytes) |
Built-in memory
Most mobile devices have built-in Flash memory, which is used as a storage for system data, the operating system, as well as user data - photos, videos, recordings and much more.
Built-in memory capacity The higher the amount of built-in memory, the more games, programs, music, videos and your other files will fit in the device, especially the amount of memory is important when the device does not support memory cards. | 8 GB (gigabytes) |
Operating system
A mobile operating system (OS) is pre-installed software with a well-thought-out interface for user control of device functions.
Operating system (OS) The operating system installed by default by the device manufacturer, as well as its version. | Android 5.0 Lollipop |
Battery
To operate autonomously, a mobile device requires a battery that powers all its components.
Battery capacity The main characteristic of a battery is its maximum capacity, that is, the charge it can store. Capacity is measured in mAh (mAh, milliamp-hour). The higher the capacity, the longer the mobile device can work. | 2000 mAh (milliamp-hours) |
Battery type Many types of batteries have been used in portable devices, but NiCd (nickel-cadmium), NiMH (nickel-metal hydride), and even more so SLA (lead-acid) batteries are already considered obsolete. Instead, modern mobile devices use Li-Ion (lithium-ion) and Li-Pol, Li-Poly (lithium-polymer) batteries. | Li-Ion (Lithium-ion) |
Call duration on 2G network (GSM, CDMA) Approximately how long will it take for a fully charged battery to discharge when talking in 2G mode. Approximate, because this time is influenced by many factors, such as the operator, signal strength, active applications, and so on. | 9 h (hours) 540 min (minutes) 0.4 days |
Waiting time on 2G network (GSM, CDMA) Approximately how long will it take for a fully charged battery to discharge if the mobile device is not used and is connected in 2G mode. | 300 h (hours) 18000 min (minutes) 12.5 days |
Call duration on 3G network (WCDMA, UMTS, CDMA2000) About how long a fully charged battery will be discharged during a call on third generation networks. Approximate time because it is influenced by various factors, including ambient temperature. | 9 h (hours) 540 min (minutes) 0.4 days |
Waiting time on 3G network (WCDMA, UMTS, CDMA2000) About how long a fully charged battery will be discharged if the mobile device is in standby mode and connected to third generation networks. | 300 h (hours) 18000 min (minutes) 12.5 days |
Screen
The screen (display) is the main element for displaying graphic information.
Technology The technology used to make the screen. There are many types of display manufacturing with their pros and cons. | TFT |
Diagonal The screen diagonal of a device is measured in inches (inch, in or simply ″), and 1″ is equal to 2.54 cm. | 4 in (inches) 101.6 mm (millimeters) 10.16 cm (centimeters) |
Width Approximate screen width | 52.27 mm (millimeters) 5.23 cm (centimeters) |
Height Approximate screen height | 87.12 mm (millimeters) 8.71 cm (centimeters) |
Aspect Ratio Aspect ratio is the ratio of the shorter side of the screen, which is considered to be 1, to the longer side, which is denoted by a decimal fraction indicating the ratio to the short side. | 1.667:1 5:3 |
Screen resolution Screen resolution is the number of horizontal pixels (dots) multiplied by the number of vertical pixels. The higher the resolution, the more detailed the image will be. | 480 x 800 pixels |
Pixel Density The number of pixels per inch or PPI (pixels per inch) indicates the density of pixels per 1 inch (2.54 cm) of the screen. The higher the PPI, the sharper the image, and the less visible or even invisible “squares and dots” (pixels). | 233 ppi (pixels per inch) 91 ppcm (pixels per centimeter) |
Color depth Color depth means how many bits are used in 1 pixel to display color (bits per pixel). | 24 bit 16777216 colors |
Screen area Approximate usable area occupied by the screen on the front of the device. The higher the percentage, the narrower the frames around the display or the smaller the “chin with bangs.” | 57.34% (percentage) |
Touch screen A touch screen is a device that usually covers the display and is a touch input tool. In fact, in mobile devices, the touchscreen is a replacement for the keyboard and mouse. | Yes |
Touch screen type There are many types of touch screens, with their pros and cons. Mobile devices often use capacitive touchscreens, but technology does not stand still and new types of sensors are appearing. | Capacitive |
Multi-touch Touch screen support for two or more touches. For example, zooming photos with two fingers. | Yes |
Main camera
The main camera, usually built into the rear of the device, is designed for creating photo and video content.
Maximum image resolution This is the maximum number of pixels (dots) horizontally and vertically. The higher the resolution, the more detailed the image will be. Resolution can also be indicated in megapixels - this is the total number of pixels that can be in the image, calculated by the formula: vertical pixels multiplied by the number of horizontal pixels and divide the resulting amount by 1 million. | 2592 x 1944 pixels 5.04 MP (megapixels) |
Matrix type There are two main types of photomatrix, CCD (Charge-Coupled Device) and CMOS (Complimentary Metal-Oxide Semiconductor). Mobile devices mainly use a CMOS matrix - it requires less space, has low power consumption and heating. Recently, new types of sensors have begun to appear, for example PureCel from OmniVision. | CMOS (complementary metal-oxide semiconductor) |
Flash type Most mobile devices are equipped with light-emitting diode (LED) flashes, but there are also xenon flashes. As a flash, xenon is better - it is more powerful, but LED is more versatile (can work as a flashlight) and consumes less electricity. | LED |
Maximum video resolution This is the maximum number of pixels (dots) horizontally and vertically. The higher the resolution, the more detailed the image will be. | 1280 x 720 pixels 0.92 MP (megapixels) |
FPS video recording at maximum resolution FPS (Frames per Second, frame rate) is the number of frames that changes in 1 second. The higher the number of frames per second, the smoother the image will be. In this case, we mean the number of frames that the camera can achieve at its maximum resolution; the lower the resolution, the higher the FPS can be. | 30 fps (frames per second) |
Presence of flash Incorporating a flash into a mobile device allows you to take pictures in low light conditions. Creates the necessary lighting and compensates for the lack of natural light. | Yes |
Digital zoom With digital zoom (zoom, enlargement), the subject is brought closer due to software image algorithms. The higher the magnification with digital zoom, the worse the image quality (noise, blur) will be compared to a non-zoomed one. | Yes |
Focus on face Function of auto-detection of living objects and autofocus on their face or head. | Yes |
Panoramic shooting mode Panoramic photography is a series of frames where each subsequent frame is a continuation of the previous one; at the end of the shooting, all frames are stitched together at the software level to create a panoramic photograph. Frames can be shot both vertically and horizontally, and their width can be up to 360 degrees. This type of shooting is used when the camera's viewing angle is not enough to capture the entire scene. | Yes |
HDR shooting mode HDR photography takes a quick series of shots with highlights, midtones, and shadows, then combines them into a single frame with high dynamic range. | Yes |
Electronic (digital) image stabilizer EIS (Electronic Image Stabilizer - digital image stabilization) is performed using software algorithms and is needed to reduce blurring when the camera shakes. | Yes |
Additional Information Additional information about the functions and characteristics of cameras. | Continuous shooting Geotagging Self-timer Scene selection mode |
Front-camera
The front camera of a mobile device (selfie camera, rear camera) is a camera on the front part, which is usually used for video communication, recognition of gestures or faces, and selfie photographs.
Photo resolution The maximum image resolution that the camera can produce. As resolution increases, image detail increases. Resolution can also be indicated in megapixels (the total number of pixels that an image can consist of) - these are vertical pixels multiplied by horizontal pixels and divided by 1 million. | 640 x 480 pixels 0.31 MP (megapixels) |
Video resolution This is the maximum resolution the camera can record video at. The higher the resolution, the better. | 640 x 480 pixels 0.31 MP (megapixels) |
Memory card
A memory card (flash card) is an external data storage device that is used in many devices to increase memory capacity.
Memory card type and formats Mobile devices usually use 3 types of memory cards - SD, miniSD and the most common microSD. Each type has its own formats that the device supports. | microSD microSDHC |
SIM card
Subscriber Identification Module (SIM) used in mobile devices to identify subscribers in cellular networks.
Type, size of SIM card A regular (mini SIM) card has dimensions of 25x15 mm. Micro SIM - 15x12 mm. Nano SIM - 12.3x8.8 mm. The sizes of SIM cards are different and not interchangeable. There is also an eSIM (virtual, electronic SIM card), it is built into the device and does not take up space. | Mini-SIM (2FF - second form factor, since the late 1990s, 25.00 x 15.00 x 0.76 mm) |
Number of SIM cards How many SIM cards does the device support? | 2 |
Additionally Additional information about the operation of SIM cards in the device. | Dual SIM stand-by (Both cards are active. When one is busy talking, the other is deactivated.) |
Mobile networks
This is a system in which communication and data transfer is carried out between subscribers, the location of one or more of which changes. This section lists the supported mobile communication standards and frequencies.
GSM GSM (Global System for Mobile Communications) is a standard for digital mobile cellular communications of the second generation 2G with time and frequency division of channels. GSM came to replace analog cellular communications 1G (first generation). | GSM 850 MHz GSM 900 MHz GSM 1800 MHz GSM 1900 MHz |
UMTS UMTS (Universal Mobile Telecommunications System), also called 3GSM, is a third generation (3G) mobile communications standard based on the WCDMA air interface. | UMTS 850 MHz UMTS 900 MHz UMTS 1900 MHz UMTS 2100 MHz |
Mobile network data standards
What data transfer standards in cellular networks are supported by the device, as well as their speed.
Data transmission technologies Technologies for receiving and transmitting data, as well as their maximum speed. | UMTS (384 kbit/s) EDGE GPRS HSPA+ (HSUPA 5.76 Mbit/s, HSDPA 21 Mbit/s) LTE Cat 4 (51.0 Mbit/s, 150.8 Mbit/s) |
WiFi
Wi-Fi (Wireless Fidelity) is a technology for wireless data transmission over a local network among devices based on IEEE 802.11 standards.
Wi-Fi Hot-Spot A hotspot is a Wi-Fi access point. In a mobile device, Hot-Spot turns the smartphone into a Wi-Fi access point, essentially turning it into a router capable of distributing the Internet. | Yes |
WiFi Supported WIFI wireless network standards. | 802.11b (IEEE 802.11b-1999) 802.11g (IEEE 802.11g-2003) 802.11n (IEEE 802.11n-2009) |
Bluetooth
Bluetooth (BT, bluetooth (z), “blue tooth”) is a short-range wireless network (up to 10, sometimes 100 meters) operating on radio waves to transmit voice and data between devices.
Bluetooth version Bluetooth technology is actively developing and, since 1998, has been constantly updating versions of the standard. Each subsequent version introduces one or several improvements in data exchange speed, range, facilitates pairing, reduces power consumption, or introduces some new protocols and operating profiles. The higher the Bluetooth version, the better. The technology is also backward compatible, for example, if your mobile device has version 5.0, then it will work with accessories version 4.2 and lower, but the improvements introduced in version 5.0 will not work; they will work only if both the device and accessories are version 5. | 2.1 |
A2DP profile The A2DP Bluetooth profile is designed to transmit a high-quality two-channel stereo signal via Bluetooth to wireless headphones, speakers and other acoustics. | Yes |
Sensors
Modern devices have many sensors that help in measurements, trigger functions, and make using the device more pleasant.
Light sensor The light sensor reacts to the light level and is able to adjust the screen brightness automatically based on this. This is necessary to reduce power consumption and ease of use of the device. | Yes |
Proximity sensor The proximity sensor reacts to the proximity of the mobile device to some object. For example, the sensor is used when talking on the phone to turn off the screen, which saves energy and prevents you from pressing buttons with your ear or cheek. | Yes |
Accelerometer An accelerometer is a sensor that measures apparent acceleration, that is, it determines the position and distance at which a mobile device moves in space. Based on the data from this sensor, the screen orientation change, pedometer, control using tilts and gestures in games and applications, etc. work. | Yes |
Additional sensors |
Audio
Audio - characteristics and capabilities of a mobile device in terms of sound.
Music speaker There are two types of speakers in mobile devices - auditory and musical. The auditory speaker (speaker) is used for conversation, the music speaker (buzzer) is used to play music and sounds. | Loudspeaker Earphone |
Radio
The radio in a mobile device can be built-in by the manufacturer (catch local radio channels, no internet required, often works only with headphones (as an antenna), but not always) or installed as an online application (requires internet, but more channels and often better quality) .
Built-in radio Is a radio tuner integrated into the mobile device? | Yes |
Navigation and location
The location is determined by satellite navigation systems that track the device's autonomous geospatial location at multiple points. The most common satellite navigation systems are GPS, GLONASS, and the Chinese BeiDou.
GPS GPS (Global Positioning System) is a global satellite navigation system that can determine the position of a mobile device, build routes and find the desired object on the map with an accuracy of several meters. | Yes |
A-GPS A-GPS (Assisted GPS) is an assistive technology that will help you quickly find the location of your cellular device without waiting for satellite data, which is especially important in indoors and cities. Location is determined in various ways, for example, Wi-Fi access points, mobile towers, bluetooth and others. | Yes |
Additional navigation systems |
USB connector
USB (Universal Serial Bus) is a serial interface for connecting peripherals to computers, smartphones, laptops and much more. The interface allows you to exchange data and power a peripheral device with energy, as well as connect several peripheral devices to one USB connector at once.
Connector type What type of USB connector is used in the device. | Micro USB |
USB standard The higher the standard, the faster the throughput, or more precisely the data exchange rate. With version 3.0 of the standard, the current was increased to 0.9A, eliminating the need for additional power for some devices. | 2.0 |
USB Mass Storage Connecting a mobile device via USB as a data storage device. That is, when you enable this mode, your device can be used as a flash drive. | Yes |
Additional characteristics Additional features of the USB connector, for example, OTG, whether the connection is supported, peripheral devices and additional memory. | Charging via USB |
Headphone jack
A TRS headphone jack (or jack) is a common standard of connectors used for transmitting audio signals. By diameter there are jack (6.5 mm), mini-jack (3.5 mm) and micro-jack (2.5 mm). In mobile devices, the 3.5mm jack was considered the most popular and widespread, but recently they began to be removed, leaving only USB connectors, through which headphones are connected with a corresponding plug or using adapters.
3.5mm headphone jack Does the device have a 3.5 mm audio jack? | Yes |
Connection and synchronization
Options for synchronizing your mobile device and connecting it to other devices.
Connection, synchronization Types of synchronization and connection technologies supported by the device. | Computer sync OTA sync Tethering |
Browser
A browser is a browser program for viewing sites and their content on the Internet. Through the browser, you can open websites, search for information, download necessary files, watch streaming videos, play browser games, etc.
Technologies Markup and programming languages supported by the built-in (standard) browser. For mobile devices, you can install additional browser applications if the standard one does not suit you. | HTML HTML5 CSS 3 |
Audio file formats/codecs
Mobile devices support many audio file formats, as well as codecs for playing them.
Default formats The formats that the mobile device supports out of the box are indicated. But if the device does not support the format you need, then you can try adding support for it. Sometimes support depends on the technical characteristics of the device (“hardware”) and nothing can be added here, but often the ability to process a particular audio format depends on the software part. You can install another audio player or codec set separately. | AAC (Advanced Audio Coding) AMR / AMR-NB / GSM-AMR (Adaptive Multi-Rate, .amr, .3ga) eAAC+ / aacPlus v2 / HE-AAC v2 MIDI MP3 (MPEG-2 Audio Layer II, .mp3) WMA (Windows Media Audio, .wma) WAV (Waveform Audio File Format, .wav, .wave) |
Video file formats/codecs
Video file formats that the device supports and is capable of decoding and playing.
Default formats Video file formats that the device is capable of playing with standard firmware and a standard (built-in) set of programs. Not all formats are supported by default, but you can install a third-party video player and/or set of codecs. | 3GPP (3rd Generation Partnership Project, .3gp) AVI (Audio Video Interleaved, .avi) MP4 (MPEG-4 Part 14, .mp4, .m4a, .m4p, .m4b, .m4r, .m4v) Xvid |