Author Archives: Ameisina

About Ameisina

I am living shenzhen the 4th biggest city in china. I do some business with some friends and customers oversee. I try to intruduce the biggest E-component market in the world it's HUAQIANGBEI. I will express with seriess with the life here and the merchanter How they Living for. The most importance parts is I will intruduce the thousands components , parts and device.

IWE-Ideas Worth Express

idea-worth-express

idea-worth-express

IWE-Ideas Worth Express

We believe the success survivor of the enterprises is attributed to the good management of the supply chain in the past decade. We believe the good management of the supply chain like the internet has become a basic infrastructure for any new enterprises in nowadays, For a new enterprise, we have to find a new way to approach the new success. So we got the IWE-Ideas Worth Express.

Introduction

We are working on knowledge management, Organization Management, and Customer value management.we recruit the best engineers as a team to focus on one critical solution in a specifical application area.we will focus on the wireless design, wireless application, IOT solution and of the end nodes of the big data, ext.

IWE-Interactive-requriment and service

IWE-Interactive-requriment and service

IWE-Introduction-Basic structure

IWE-Introduction-Basic structure

Our team includes Project Manager, hardware engineers, software engineer, structure and the expert in the wireless application.We will make sure the solution will bring the value to customers.we deeply believe the power of the new organization and good management for the talent people and resource.we deeply believe the beauty of new thing we can create if we can have good organization and Management for the talent people and Manager. We attribute the success to the good management of the supply chain in the past, We believe the Success will come good management of the supply chain and also the good management and the new way of the organization to the talent workers.

IWE-Management-knowledge management

IWE-Management-knowledge management

What we are doing?

IWE-idea worth express what we are doing.

IWE-idea worth express what we are doing.

First, we will source special application, find the experts in the special area, Analysis the technic portions and then find the right people form a team.

Second, The team will build a demo to show how the system works and present the ability building a beauty product. at the same time, we have a service from IWE to help tell the story and explain the system of the application by using pictures, videos, and articles to the potential customers through the internet and social media network.

Third, the demo will be available on the online shop after it finished. The potential customers will pay for the demo and check the function have the basic idea about how it works and know the core value of this application, then a new idea brings out according to the local market and their key resource to their customer.

Fourth, After checking the demo customer will have the new idea for their application and confirm the ability of the team, then the customer has to pay a fee for customized their new product.

Fifth, IWE has a good management for the local supply chain and will source the feasible components and device from the local and international suppliers, guarantee the ability and quality when the new products run mass production.

Sixth, Using the international logistical delivery the products to the customer all over this world.

Value and impact

We take off the best skill and talent from a talent people and input that skill and talent to solutions, we help to present and explore that to customers, Customer can combine the local culture, market and requirement to the solutions to customized special products, bring the value from skill people to the end customers.We want customer can have full service for supply chain and talent people at one station.We want the talent people to have more time with their families and friends or for traveling.

Idea worth express this is a great journey join with us start the big adventure

For further information please contact us:

DWMZONE LIMITED .

E-mail: sales@odlstore.com     Skype: ameisina

Twitter:Dwmzone     Facebook:Dwmzone

Youtube:Dwmzone

Website: http://www.odlstore.com

User Guide DWM-PM-8 50uA Lowest standby Current 0.18s to 300s Delay Time Mini Infrared PIR motion sensor module

DWM-PM-8 50uA Lowest standby Current 0.18s to 300s Delay Time Mini Infrared PIR motion sensor module

Features

Power supply is 3.3V to 15V.module include LDO;
Sensitivity can be adjust,
Delay time can be adjust,
Trigger mode is be defined as repeatable;
Controller MCU built-in sensor:strong interference rejection capacity,Low EMI.
[small size,Wideer working voltage range,small current,stable performance]

dwmzone-pir-infrared-sensor416-dwm-pm-8-50ua-lowest-standby-current-018s-to-300s-delay-time-mini-infrared-pir-motion-sensor-feature

dwmzone-pir-infrared-sensor416-dwm-pm-8-50ua-lowest-standby-current-018s-to-300s-delay-time-mini-infrared-pir-motion-sensor-feature

Repeatable: if the moudul detect human body is moving,output high level at once,this moment,at delay time,if PIR detect body is moving once more, then delay time reset,be cleared to zero,start counting from zero,until the delay time to over,will output low level,waitting next trigger.

Unrepeatle:if the moudul detect human body is moving,output high level at once,this moment,signal input line be closed,PIR detect is disabled, until the delay time to over,will output low level,waitting next trigger.

 LDR worke mode

Customer can sold a LDR then the module will not work at the day time and will work at the evening.

dwmzone-pir-infrared-sensor416-dwm-pm-8-50ua-lowest-standby-current-018s-to-300s-delay-time-mini-infrared-pir-motion-sensor-module

dwmzone-pir-infrared-sensor416-dwm-pm-8-50ua-lowest-standby-current-018s-to-300s-delay-time-mini-infrared-pir-motion-sensor-moduleSensitivity adjust and Delay time adjust

Sensitivity adjust and Delay time adjust

dwmzone-pir-infrared-sensor416-dwm-pm-8-50ua-lowest-standby-current-018s-to-300s-delay-time-mini-infrared-pir-motion-module

dwmzone-pir-infrared-sensor416-dwm-pm-8-50ua-lowest-standby-current-018s-to-300s-delay-time-mini-infrared-pir-motion-module

dwmzone-pir-infrared-sensor416-dwm-pm-8-50ua-lowest-standby-current-018s-to-300s-delay-time-mini-infrared-pir-motion-time-table

dwmzone-pir-infrared-sensor416-dwm-pm-8-50ua-lowest-standby-current-018s-to-300s-delay-time-mini-infrared-pir-motion-time-table

Test and Application circut

dwmzone-pir-infrared-sensor416-dwm-pm-8-50ua-lowest-standby-current-018s-to-300s-delay-time-mini-infrared-pir-motion-sensor-application

dwmzone-pir-infrared-sensor416-dwm-pm-8-50ua-lowest-standby-current-018s-to-300s-delay-time-mini-infrared-pir-motion-sensor-application

Motion Activated LED Step Light, Part 1 – Project Overview

Motion Activated LED Step Light, Part 2 – PM-8 Sensor and Schematic

Motion Activated LED Step Light, Part 3 – Adding LIght Sensor (LDR)

Motion Activated LED Step Light, Part 4 – Warm white LEDs and battery life

 

Funding Support for Prototypes Service

Funding Support for Prototypes Service

Service

 Good ideas are just like a The fleeting meteors in the sky how can we catch it and make it comes to real world? Idea worth express.Funding Support for Prototypes Service target the electronic world.If you have a good idea just let us know we will help you to design and make it comes to truth only if we also think it’s good or you can approve it’s good,If you already have finished a design just let us know we can help you to make prototype for free only if we think it can get people educated or bring the benefit to people’s life or work.

Possibility

Our team set at the City Shenzhen,Guangdong,China where has the largest electronics market which name is HUAQIANGBEI  You can find anything electronic parts here within five minutes at a small counter which  spread over the market.Here it also has a full mature supply chain,we can gurantee that we can offer an professional,Experienced and fast service.

Implementation

We are going to fully use the social network media to get further exposure to our service. Funding Support for Prototypes Group at FacebookFunding Support for Prototypes at the communities of google+instructables project.We have online store which is Dwmzone whih will help to sell the prototypes.we have a Venture capital team who is going to funding for the prototypes,We have a experienced engineers team who is going to offer a profesional consultant service for the coming ideas and design.We also have  has a supply chain manager team who is going to gurantee a fast manufacture and delivery service.

 

Funding Support for Prototypes-facebook

Funding Support for Prototypes-facebook

 

Funding Support for Prototypes-google+

Funding Support for Prototypes-google+

 Funding-Support-for-Prototypes-instuctable-1.png March 8, 2017 230 KB 994 × 529 Edit Image Delete Permanently URL http://odlstore.com/blog/wp-content/uploads/2017/02/Funding-Support-for-Prototypes-instuctable-1.png Title Funding Support for Prototypes-instuctable Caption Funding Support for Prototypes-instuctable Alt Text

Funding Support for Prototypes-instuctable

Process

dwmzone-Value-your-ideas-and-random-design-Royalty

dwmzone-Value-your-ideas-and-random-design-Royalty

Let me explain the whole process simply.

Ownership

Lessors own the ideas and designs Dwmzone will rent the ideas or designs In a certain period of time(one or three years) after that the Dwmzone will release the ownership back to the Lessors.

Division of labour

Lessors

Turn the ideas and design into a Required PCB information and Required Bom information send to Dwmzone.Share the software to the End Users and Shoot a video give an introduction about the design and ideas and guide the End Users how to use it.reply the comments and answer the questions.

Dwmzone

Give lessors a professional consultancy make it more practicable and turn the ideas and design to a real products,Sign a Tenancy agreement with Lessors which will write down the lease period and  Percentage for paid royalty (we will pay you a percentage-based royalty per product sold), Offer a vc funding and charge the manufacture ,stock,delivery and sell around the word.

Endusers

Pay for the service, got the benefit and fun.

Idea worth express this is a great journey join with us start the big adventure

For further information please contact us:

DWMZONE LIMITED .

E-mail: sales@odlstore.com     Skype: ameisina

Twitter:Dwmzone     Facebook:Dwmzone

Website: http://www.odlstore.com

 

User Guide for DWM-PM-6 20uA Lowest standby Current 1.8s to 1Hour Delay Time Mini Infrared PIR module

DWM-PM-6 20uA Lowest standby Current 1.8s to 1Hour Delay Time Mini Infrared PIR module

Features

Power supply is 3.3V to 15V.module include LDO;
Sensitivity can be adjust,
Delay time can be adjust,
Trigger mode is be defined as repeatable;
Controller MCU built-in sensor:strong interference rejection capacity,Low EMI.
[small size,Wideer working voltage range,small current,stable performance]

dwmzone-dwm-pm-6-20ua-lowest-standby-current-18s-to-1hour-delay-time-mini-infrared-pir-module-delay-time-low-EMI

dwmzone-dwm-pm-6-20ua-lowest-standby-current-18s-to-1hour-delay-time-mini-infrared-pir-module-delay-time-low-EMI

Repeatable: if the moudul detect human body is moving,output high level at once,this moment,at delay time,if PIR detect body is moving once more, then delay time reset,be cleared to zero,start counting from zero,until the delay time to over,will output low level,waitting next trigger.

Unrepeatle:if the moudul detect human body is moving,output high level at once,this moment,signal input line be closed,PIR detect is disabled, until the delay time to over,will output low level,waitting next trigger.

 LDR worke mode

Customer can sold a LDR then the module will not work at the day time and will work at the evening.

dwmzone-dwm-pm-6-20ua-lowest-standby-current-18s-to-1hour-delay-time-mini-infrared-pir-module

dwmzone-dwm-pm-6-20ua-lowest-standby-current-18s-to-1hour-delay-time-mini-infrared-pir-module

Sensitivity adjust and Delay time adjust

dwmzone-dwm-pm-6-20ua-lowest-standby-current-18s-to-1hour-delay-time-mini-infrared-pir-module-sensitive

dwmzone-dwm-pm-6-20ua-lowest-standby-current-18s-to-1hour-delay-time-mini-infrared-pir-module-sensitive

dwmzone-dwm-pm-6-20ua-lowest-standby-current-18s-to-1hour-delay-time-mini-infrared-pir-module-delay-time

dwmzone-dwm-pm-6-20ua-lowest-standby-current-18s-to-1hour-delay-time-mini-infrared-pir-module-delay-time

dwmzone-dwm-pm-6-20ua-lowest-standby-current-18s-to-1hour-delay-time-mini-infrared-pir-module-delay-time-low-delay-time-1.8S

dwmzone-dwm-pm-6-20ua-lowest-standby-current-18s-to-1hour-delay-time-mini-infrared-pir-module-delay-time-low-delay-time-1.8S

Test and Application

dwmzone-dwm-pm-6-20ua-lowest-standby-current-18s-to-1hour-delay-time-mini-infrared-pir-module-application

dwmzone-dwm-pm-6-20ua-lowest-standby-current-18s-to-1hour-delay-time-mini-infrared-pir-module-application

Note:

1.Before use,need checking Solder iron temperature , implement leakage of electricity, and static discharge in winter(cmos component)
2.When power on,IC has 20S to 60S self-testing process,in the meantime,will output high level,then,output low level,into stable waiting state.(waiting state,it is also on standby);

3.The module ouput is MCU IO port direct output,to use,advise series connection a resistance,4.7K to 10K;

Software development guide for E931.96, Reading and Writing functions

Affected Devices and Sensors

E931.96 Ultra-Low Power PIR Controller

Interfaces

The E931.96 accepts data from the MCU on the SERIN input pin. Measurement data is clocked out and motion interrupts are flagged on the INT/DOCI pin of the device.A zero to one transition on the INT output indicates detected motion. The interrupt pin will stay at one until it is cleared by the MCU.The MCU can read the ADC voltages (14 bits) and the configuration data (25bits) through the DOCI output of the E931.96.

Setting up the device (SERIN)

After power up the E931.96 need to be programmed with a configuration that sets up the device with operational parameters and puts the device in the correct operational mode.  The device is programmed with a 25-bit bit stream on the SERIN input. The SERIN input is held low when the interface is not used, it also provides for minimum interference to the sensor. The microcontroller generates a low to high transition on the SERIN input, this is a clock pulse, and subsequently applies a data bit value, either a one or a zero. This process is repeated 25 times until all the data bits are clocked into the E931.96. The low to high transition or clock pulse can be very short, typically 1 instruction cycle of the microcontroller, but the data bit value must be applied for at least 2 system clocks (2/FCLK), of the E931.96. Whenever the data transfer is interrupted for more than 16 system clocks (16/FCLK), the last data received is latched into the configuration registers. Should the transfer of data be interrupted for more than 15 system clocks, the writing procedure needs to be restarted.Table 3 in the datasheet shows the sequence of bits and the meaning of the register values. Configuration data is clocked into the device starting at bit 24 down to bit 0.  A typical code example would look as follows:

void write_to_E93196(long long setup_data)  // setup_data holds the device configuration

{

char i;

long long mask;

mask=0x01000000;       // Bitmask is at bit 25

for(i=0;i<25;i++)

{

serin_clock();        // Generates zero to one clock pulse on SERIN pin

if((setup_data&mask)>0)  // Decide if it is a one or a zero data bit

output_high(SERIN);

else

output_low(SERIN);

delay_us(72);         // More than 62us, ensure it is more than 2/FCLK

mask>>=1;            // Shift mask to the next bit

}

output_low(SERIN);

delay_ms(1);            // Wait for data to be latched, time must be more than 16/FCLK

}

Reading

The DOCI pin is used to transfer data from the device to the MCU. The MCU drives a clock signal and the E931.96 provides the data bit. The MCU initiates reading of the status and configuration data by forcing a high level for the duration of more than 2 device clock cycles (>3/FCLK) on the DOCI pin (tFR in the datasheet).

A clock pulse is generated by a low to high transition on the DOCI pin. Subsequently the MCU samples data bit value driven by the E931.96. This process is repeated 15 times to read the ADC value and a further 25 times until all the data bits are clocked out of the E931.96. The sampling speed is influenced by the capacitance on the DOCI line due to the PCB layout and the MCU load. The DOIC pin does not have a strong driver so that it can be overdriven for the clock pulses. When readout is completed, the MCU must drive the DOCI pin to zero, and subsequently switch to tri-state in order to receive a new interrupt. The source for the ADC input can be selected between PIR input, supply voltage input and temperature. Reading can be terminated at any time by forcing the DOCI line to zero for at least 4 system clock cycles.The interrupt source for the DOCI/INT output can be selected between reading of the ADC values or for motion detection. If the ADC interrupt is selected, an interrupt is produced every 512 system clocks that signals that an ADC value is available to be clocked out. It is possible to read ADC values without making use of the interrupts generated by the E931.96.For interrupts as a result of motion, the motion detection bit and the interrupt source bit need to be set.No interrupt will be generated while the microcontroller accesses the interface.Below is an example of reading the ADC value as well as the configuration data from the device.

void readback_all_from_E93196(void)

{

int n;

long long kk;

#use fast_io(A)  // This tells the compiler that I will take care of the direction settings of the port

force_doci_high();   // force read, hold DOCI high at least 3 clocks of IC

//clock out bits [39:25] for the ADC value and the out of range bit

for(n=0;n<(14+1);n++)

{

doci_clock();

adc<<=1;     // This instruction is my sample delay

if(input(DOCI_PIN)==1)

adc++;

}

//Next read the setup bits [24:0]

setup_back=0;

for(n=0;n<25;n++)

{

doci_clock();

kk<<=1;          // This instruction is my sample delay

if(input(DOCI_PIN)==1)

setup_back++;

}  clear_DOCI_interrupt();

#use standard_io(A)

}

Helper functions

In the examples above we made use of small functions that is shown below. The syntax of these functions may be different to suit the particular compiler that is used. The DOCI output is clocked by the device as fast as possible; the direction handling is also taken care of.

void doci_clock(void)

{

#use fast_io(A)

output_low(DOCI_PIN);     // Clear DOCI pin

doci_dir&=~DOCI_PIN_DIR;  // Clear direction bit

set_tris_a(doci_dir);     // DOCI pin output

delay_cycles(5);          // Wait a bit

output_high(DOCI_PIN);    // Set DOCI pin

doci_dir|=DOCI_PIN_DIR;   // Set direction bit

set_tris_a(doci_dir);     // DOCI pin input

delay_cycles(5);          // Wait a bit

}

After an interrupt was generated by the device, it is cleared by the MCU by driving the DOIC pin low and releasing it, so that the device can drive again when an interrupt occurs.

void clear_DOCI_interrupt(void)

{

//Release the DOCI Line leave in zero state

#use fast_io(A)    // Prevent compiler from handling the direction control

output_low(DOCI_PIN);      // Clear DOCI pin

doci_dir&=~DOCI_PIN_DIR;   // Clear direction bit

set_tris_a(doci_dir);      // DOCI pin output

delay_cycles(175);      // Time depends on track capacitance on the PCB

doci_dir|=DOCI_PIN_DIR;    // Set direction bit

set_tris_a(doci_dir);      // DOCI pin input

#use standard_io(A)

}

A read request from the MCU to the E931.96 is indicated by forcing DOCI to high level for 3 device clocks (3/FCLK) of the E931.96

void force_doci_high(void)

{

// force read, at least 3 clocks of IC

#use fast_io(A)    // Prevent compiler from handling the direction control

output_high(DOCI_PIN);    // Set DOCI pin

doci_dir&=~DOCI_PIN_DIR;  // Clear direction bit

set_tris_a(doci_dir);     // DOCI pin output

delay_us(120);

#use standard_io(A)

}

The function below generates the clock signal on the SERIN input of the device. The clock delay can be as short as one cycle on the MCU.

void serin_clock(void)

{

output_low(SERIN); // Clear SERIN pin

delay_us(1);

output_high(SERIN);     // Set SERIN pin

delay_us(1);

}