Z-STACK-HOME、 Z-STACK-LIGHTING、 Z-STACK-ENERGY有什么区别？

Z-STACK-HOME、 Z-STACK-LIGHTING、 Z-STACK-ENERGY有什么区别呢？我是新手，我应该下载哪个协议栈？

看你做什么应用？

Z-Stack Home

Z-Stack Home is TI's ZigBee Home Automation (ZHA) compliant protocol stack for the CC2630, CC2530 and CC2538 System-on-Chip.

Z-Stack Home notables include:

1. Based on Z-Stack, ZigBee PRO 2012 protocol stack with ZCP (ZigBee Compliant Platform) certification and 802.15.4 MAC certification
2. Support for low-power SoCs: ultra-low power CC2630, cost-effective CC2530 SoC and high performance CC2538
3. The CC2630 implementation is written on top of TI-RTOS to fully utilize the low-power features of CC2630
4. Incorporated support for the CC2592 and CC2590 RF front ends which support respectively +22dBm and +14dBm transmit power and provide improved receive sensitivity
5. Examples and building blocks for the following end product categories:
   • Consumer Home Lighting Control
   • Commercial (professional install) Lighting Control System
   • Alarm and Security
   • Home Energy Management
   • Module Supplier for Home Automation Applications
6. Golden unit (reference specifications) for the latest ZigBee Home Automation 1.2.2 profile
7. Sample applications
8. Over-the-air firmware upgrade, allowing future updates of deployed systems
9. Easy integration with TI's Z-Stack Linux Gateway

Additional examples available from: ZigBee Home Automation wiki

Get Z-Stack Home by clicking on the Download button above.

Z-Stack Lighting

Z-Stack Lighting is TI's ZigBee Light Link (ZLL) compliant protocol stack for the CC2530 System-on-Chip.

Z-Stack Lighting notables include:

1. Based on Z-Stack, ZigBee PRO 2012 protocol stack with ZCP (ZigBee Compliant Platform) certification
2. Support for low-cost, low-power CC2530 and CC2531 SoC
3. Incorporated support for the CC2591 and CC2590, RF front ends which support respectively +20dBm and +14dBm transmit power and provide improved receive sensitivity
4. Foundations and examples for the following end product categories:
   • Consumer Home Wireless Lighting Control: LED or CFL Light
   • Consumer Home Wireless Lighting Control: Switch/Occupancy Sensor/Lumen Sensor
   • Commercial (professional install) Lighting Control System
   • Module Supplier for Lighting Applications
   • Industrial Building Lighting Applications
   • Highway Infrastructure Lighting Control
5. Golden unit (reference specifications) for the ZigBee Light Link 1.0 profile, golden unit implementation
6. ZLL certified applications for:
   • Color scene remote controller
   • Color light, dimmable light, on/off light
   • Control Bridge
7. ZLL Kit (including ZLL certified Color Light Reference HW) available from:http://www.ti.com/tool/cc2530zdk-zll
8. Examples and FAQ available from:http://processors.wiki.ti.com/index.php/Category:ZigBee_Light_Link

Get Z-Stack Lighting by clicking on the Download button above.

Z-Stack Mesh

The new Z-Stack Mesh software is a ZigBee PRO 2012 compliant and certified protocol stack that simplifies the development of standards-based ZigBee mesh products for CC2538 SOCs.

Z-Stack Mesh notables include:

• Self-healing, robust and proven network stack capable of connecting over 400 nodes
• Compatible with many-to-many or many-to-one application routing
• Includes secure over-the-air software download capability for easy in-field updates
• Compact solution that can be run either in a Wireless Network Processor or Wireless Microntroller (MCU) configuration with the SimpleLink ZigBee CC2530, CC2531 or CC2538enabling flexible host processor options and a variety of memory configurations.
• Incorporated support for the CC2592 and CC2590 RF front ends which support respectively +22 dBm and +14 dBm transmit power and provide improved receive sensitivity

Get Z-Stack Mesh by clicking on the Download button above.

非常感谢你这个及时的回答。

我是初学者，不知道用哪一个入门？

VV

看你做什么应用？

Z-Stack Home

Z-Stack Home is TI's ZigBee Home Automation (ZHA) compliant protocol stack for the CC2630, CC2530 and CC2538 System-on-Chip.

Z-Stack Home notables include:

1. Based on Z-Stack, ZigBee PRO 2012 protocol stack with ZCP (ZigBee Compliant Platform) certification and 802.15.4 MAC certification
2. Support for low-power SoCs: ultra-low power CC2630, cost-effective CC2530 SoC and high performance CC2538
3. The CC2630 implementation is written on top of TI-RTOS to fully utilize the low-power features of CC2630
4. Incorporated support for the CC2592 and CC2590 RF front ends which support respectively +22dBm and +14dBm transmit power and provide improved receive sensitivity
5. Examples and building blocks for the following end product categories:
   • Consumer Home Lighting Control
   • Commercial (professional install) Lighting Control System
   • Alarm and Security
   • Home Energy Management
   • Module Supplier for Home Automation Applications
6. Golden unit (reference specifications) for the latest ZigBee Home Automation 1.2.2 profile
7. Sample applications
8. Over-the-air firmware upgrade, allowing future updates of deployed systems
9. Easy integration with TI's Z-Stack Linux Gateway

Additional examples available from: ZigBee Home Automation wiki

 

Get Z-Stack Home by clicking on the Download button above.

 

---

Z-Stack Lighting

Z-Stack Lighting is TI's ZigBee Light Link (ZLL) compliant protocol stack for the CC2530 System-on-Chip.

Z-Stack Lighting notables include:

1. Based on Z-Stack, ZigBee PRO 2012 protocol stack with ZCP (ZigBee Compliant Platform) certification
2. Support for low-cost, low-power CC2530 and CC2531 SoC
3. Incorporated support for the CC2591 and CC2590, RF front ends which support respectively +20dBm and +14dBm transmit power and provide improved receive sensitivity
4. Foundations and examples for the following end product categories:
   • Consumer Home Wireless Lighting Control: LED or CFL Light
   • Consumer Home Wireless Lighting Control: Switch/Occupancy Sensor/Lumen Sensor
   • Commercial (professional install) Lighting Control System
   • Module Supplier for Lighting Applications
   • Industrial Building Lighting Applications
   • Highway Infrastructure Lighting Control
5. Golden unit (reference specifications) for the ZigBee Light Link 1.0 profile, golden unit implementation
6. ZLL certified applications for:
   • Color scene remote controller
   • Color light, dimmable light, on/off light
   • Control Bridge
7. ZLL Kit (including ZLL certified Color Light Reference HW) available from:http://www.ti.com/tool/cc2530zdk-zll
8. Examples and FAQ available from:http://processors.wiki.ti.com/index.php/Category:ZigBee_Light_Link

Get Z-Stack Lighting by clicking on the Download button above.

 

---

Z-Stack Mesh

The new Z-Stack Mesh software is a ZigBee PRO 2012 compliant and certified protocol stack that simplifies the development of standards-based ZigBee mesh products for CC2538 SOCs.

Z-Stack Mesh notables include:

• Self-healing, robust and proven network stack capable of connecting over 400 nodes
• Compatible with many-to-many or many-to-one application routing
• Includes secure over-the-air software download capability for easy in-field updates
• Compact solution that can be run either in a Wireless Network Processor or Wireless Microntroller (MCU) configuration with the SimpleLink ZigBee CC2530, CC2531 or CC2538enabling flexible host processor options and a variety of memory configurations.
• Incorporated support for the CC2592 and CC2590 RF front ends which support respectively +22 dBm and +14 dBm transmit power and provide improved receive sensitivity

Get Z-Stack Mesh by clicking on the Download button above.

我不知道用哪个开始入门。

要不你具体说下你的应用？目前用zstack home的比较普遍

这些协议的基本架构都是一样的，只是上层应用有些不同。入门的话，建议您结合开发板进行学习。这3种都是可以的

    你好，我经常看到你帮助解答问题，我是一个初学者我有两个问题希望得到你的解答。

第一个问题，AF_DataRequest（）函数里面的参数第一个参数里面的目的地址端点号和第二个参数源端点里面的端点号要相同吗

第二个问题，发送成功后，就代表对方一定接受到了吗？对方怎么确定我收到该条发送的数据了

第三个问题，还有个发送选项参数，可以设置为让对方确认，如果配置为这个选项，接收方需要怎么处理？接收到对方的确认后发送方需要做什么处理？这些都需要自己写代码还是用协议栈已经提供的代码

期待你的回到，谢谢

afStatus_t  AF_DataRequest( afAddrType_t *dstAddr, endPointDesc_t *srcEP,

                                              uint16 cID, uint16 len, uint8 *buf, uint8 *transID,

                                              uint8 options, uint8 radius )

第一个参数 dstAddr,在文件AF.h中，该参数是一个结构体的指针。在该参数中除了指定了网络地址外，还需要指定目的地址的模式参数。

第二个参数endPointDesc_t *srcEP，也是一个结构体的指针，源网络地址描述，每个终端都必须要有一个ZigBeezz的简单描述。

接受成功后，接收方会回复一个ACK，这个可以通过抓包看出

Susan Yang

这些协议的基本架构都是一样的，只是上层应用有些不同。入门的话，建议您结合开发板进行学习。这3种都是可以的

谢谢~