DS200DSFBG2 DC feedback board
1. first, insert a start status and read in the first node
2. make the following judgment on this node:
3.1.1 whether the node is a branch node. If so, call the branch traversal algorithm on the node
2.1 next, judge whether the node has input. If so, insert a new state, set the relevant properties of the new state, and generate a message from the current state to the newly inserted state
4. if there are other nodes, go to the next node and repeat step 2. Otherwise, the algorithm ends
5. algorithm 2: Branch traversal algorithm:
1. read in the first node of a branch
1.1 make the following judgment on this node:
1.1.1 judge whether the node is a branch node. If so, call the branch traversal algorithm
2.1.1 judge whether the node has input, if so, insert a new state, set the relevant properties of the new state, and generate a message from the current state to the newly inserted state
2.1 if there are other nodes, go to the next node and repeat step 1.1
3.1 make the following judgments:
1.3.1 if the first branch is currently processed, insert a new state and make the last node point to the newly inserted node
2.3.1 if it is not the first branch, make the last node point to the last node of the first branch
DS200DSFBG2 DC feedback board
The latest embedded design provides a large number of complex new products and services for various industries and applications. Due to cost constraints and expectations for improved performance, embedded design is providing smaller and more cost-effective solutions for various daily applications, including household appliances, tools, buildings, clothing, and almost all items around us.
These embedded designs typically consist of a microcontroller and various secondary interfaces, such as power supplies. Being able to confidently and quickly select power components is crucial for providing reliable, smaller, and more cost-effective solutions. To achieve this goal, you need to use intuitive testing and measurement tools to quickly obtain optimization results. So Beijing Oriental Zhongke Integrated Technology Co., Ltd. has compiled this solution through years of communication and self summary with customers, for reference only. This article focuses on the practical application of power analysis, using specific measurement techniques to more efficiently select and determine corresponding components for embedded design.
CPU: 600MHZ or 1GHz
Operating system: Windows CE or Windows XP
Motion control: can integrate 4-axis or 8-axis motion control
Network interface: Ethernet 10M/100M adaptive
Display interface: VGA, HMI (including LVDS, USB, PS/2. serial port)
Programming software: Softpro V2.3 (compliant with IEC61131-3 standard)
Working environment: Temperature 0-60 ° C
Humidity: 5% -90% without condensation
Contact information:+86 15359213550
1. A-B Rockwell
2. FOXBORO
3. TRNEX
4. OVATION Westinghouse
5. SCHNEIDER
6. GE FANUC Fanuc
7. SIEMENS
8. REXROTH INDRAMA
9. ABB
10. HONEYWELL
11. BENTLY NEVADA
12. YOKOGAWA Yokogawa
13. ICS TRIPLEX
14. BACHMANN
15. Emerson
16. EPRO
17. HIMA Black Horse and other imported industrial components!
Related models:
REF615 HBFEAEAGABB1BNA11E |
REF615 HBFEAEAGNDA1ABA1XG |
REF615A_1G HAFNAEFCBGC1BQK11G |
REF615C_C HCFFAEAGANB2BAN1XC |
REF615C_D HCFKAEADAND2BAA1XD |
REF615E_E HBFHAEAGNCA1BNN1XE |
REF620 NBFNAANNNDA1BBN1XF |
REM545AG228AAAA |
REM545BM222BAAA |
REM615C_D HCMJAEADAND2BNN1CD |
RF615 3BHT100010R1 |