AeroComm ZB2430 Read Destination Address, Auto Destination, Read API Control, Write API Control

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Read Destination Address

The OEM Host issues this command to the transceiver to read the Destination Address.

Auto Destination

Command: <0xCC> <0x11>

Number of bytes returned: 4

Response: <0xCC> <0x00> <NWK Hi> <NWK Lo>

Parameter Range:

<NWK Hi>

=

MSB of destination radio’s NWK address

<NWK Lo>

=

LSB of destination radio’s NWK address

 

 

 

The Host issues this command to change the Auto Destination setting. When issuing this command, the Auto Destination setting will only be changed if the corresponding enable bit is set. Otherwise, the command performs a read of Auto Destination.

Command: <0xCC> <0x15> <Auto Dest>

Number of Bytes Returned: 2

Response: <0xCC> <Auto Dest>

Parameter Range:

<Auto Dest> = bit 7: Ignored bit 6: Ignored bit 5: Ignored

bit 4: Read=0, Write =1

bit 3: Ignored

bit 2: Ignored

bit 1: Ignored

bit 0: Auto Destination

Read API Control

The OEM Host issues this command to read the API Control byte.

Command: <0xCC> <0x16>

 

 

 

 

Number of Bytes Returned: 2

 

 

 

 

Response: <0xCC> <API Control>

 

 

 

 

Parameter Range:

 

<API Control>= bits 7-3: 0

 

bit-2: Send Data Complete

 

bit-1: Transmit API

 

bit-0: Receive API

Write API Control

 

 

 

 

 

 

 

The OEM Host issues this command to write the API Control byte to enable or disable the API features.

Command: <0xCC> <0x17> <API Control>

Number of Bytes Returned: 2

Response: <0xCC> <API Control>

Parameter Range:

<API Control>= bits 7-3: Ignored

bit-2: Send Data Complete

bit-1: Transmit API

bit-0: Receive API

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Contents VE R S I O N Sales Technical SupportDocument Information Limited Warranty, Disclaimer, Limitation of LiabilityCopyright 2008 AeroComm, Inc. All rights reserved This material is preliminaryRevision Description Revision HistoryContents 2 4 3 0 F E a T U R E S ZB2430 Transceiver ModuleE R V I E W B l e 1 Z B 2 4 3 0 Specification s SpecificationsGeneral PhysicalCertifications N D E F I N I T I O N S SMT Pin Pluggable Type Signal Name FunctionCTS Design NotesHardware Interface I n E e p I n dTerms & Definitions TE R M S & D E F I N IT I O N S TE R MS & D E F in I TI O N S E E 8 0 2 5 & Z I G B E E O V E R V I E W Theory of OperationCoordinator RouterEnd Device E a T I N G a N E T W O R KS h G u r e 1 Z i g B e e N e t w o r k T o p o l o g i e s R E N T / C H I L D R E L a T I O N S H I PG u r e 2 P a r e n t / C h i l d R e l a t i o n s h i p T W O R K L I M I T a T I O N SX i m u m N e t w o r k D e p t h I t N e t w o r k a d d r e s s G B E E a D D R E S S I N GB l e 3 D e v i c e T a b l e E x a m p l e I t M a C a d d r e s sS h R o u t i n g a O D Bit Network AddressesZB2430 User’s Manual O a d c a s t T r a n s m i s s i o n s Sending a Broadcast packet B l e 4 B r o a d c a s t a d d r e s s e sBroadcast Address Destination Group T E R F a C E M O D E S Serial InterfaceA n s p a r e n t M o d e I M o d eB l e 5 B a u d R a t e / I n t e r f a c e T i m e o u t R I a L I N T E R F a C E B a U D R a T ET E R F a C E T I M E O U T / R F P a C K E T S I Z E Using a non-standard baud rateO W C O N T R O L D D a t a B u f f e r a n d R T S D D a t a B u f f e r a n d C T SExamples T W O R K I N GZB2430 User’s Manual B l e 7 S l e e p M o d e S e t t i n g s W E R D O W N M O D E SC l i c S l e e p E p S l e e pTransmitting and Receiving data with a sleeping End Device G u r e 1 1 Z B 2 4 3 0 C o n f i g u r a t i o n F l o w Configuring the ZB2430T h e F l y C o n t r o l C o m m a n d s C O M M a N D SB l e 8 C o m m a n d Q u i c k R e f e r e n c e N F I G U R I N G T H E Z B 2 4 3 M M a N D D E S C R I P T I O N S Auto Destination Read Destination AddressRead API Control Write API ControlRead Digital Input Set Max PowerRead ADC Write Digital OutputsRead 16-bit NWK Address of Parent Device Read 16-bit NWK AddressDiscover 16-bit NWK Address of Remote Radio Discover Ieee Address of Remote RadioDiscover Ieee Address & Children of Remote Radio Read TemperatureRead Voltage Eeprom Byte ReadRestore Factory Defaults ResetSoft Reset with NV reset Eeprom Byte WriteEeprom Parameters Length Range Default Description Address BytesParameter Bytes Length Range Default Description AddressZB2430-Q ZB2430-D MAC ID I T r a n s m i t P a c k e t API OperationG u r e 1 2 T r a n s m i t a P I p a c k e t f o r m a t I S e n d D a t a C o m p l e t eG u r e 1 4 R e c e i v e a P I p a c k e t f o r m a t I R e c e i v e P a c k e tZB2430 Addressing Wait for command response A d N e i g h b o r T a b l e Command DefinitionsG u r e 1 7 R e a d N e i g h b o r T a b l e C o m m a n d V a N C E D N E T W O R K C O M M a N D S G u r e 1 9 R e a d R o u t e T a b l e C o m m a n d A d R o u t e T a b l eG u r e 2 0 R e a d R o u t e T a b l e R e s p o n s e G u r e 2 1 P e r f o r m S c a n C o m m a n d R f o r m S c a nIf Scan Type = 0x00 Byte 8 Channel Number Byte 9 Energy G u r e 2 2 P e r f o r m S c a n R e s p o n s eG u r e 2 3 R e a d R a d i o T a b l e C o m m a n d A d R a d i o T a b l eG u r e 2 4 R e a d R a d i o T a b l e R e s p o n s e 2 4 3 0 M E C H a N I C a L DimensionsG u r e 2 5 Z B 2 4 3 0 M e c h a n i c a l D r a w i n g O D U C T P a R T N U M B E R S Ordering InformationE N C Y I D E N T I F I C a T I O N N U M B E R S Compliancy InformationP R O V E D a N T E N N a L I S T B l e 1 1 Z B 2 4 3 0 a p p r o v e d a n t e n n a L i s tContains FCC ID KQL-ZB2430-100 / KQL-ZB2430D M E Q U I P M E N T L a B E L I N G R E Q U I R E M E N T SM P L I a N C Y I N F or M a T I O N

ZB2430 specifications

The AeroComm ZB2430 is a highly regarded wireless module optimized for Zigbee applications, positioning itself as an ideal solution for connecting devices within the Internet of Things (IoT) ecosystem. With its robust features, advanced technologies, and impressive characteristics, the ZB2430 stands out in the crowded market of low-power, low-data-rate communication devices.

One of the primary features of the AeroComm ZB2430 is its superior range and reliability. Designed to operate in the 2.4 GHz ISM band, the ZB2430 boasts a communication range of up to 1,200 feet line of sight in open environments. This enables seamless connectivity for devices across extensive areas, making it suitable for applications such as remote monitoring and smart home systems. The ZB2430 also employs advanced error correction and data packet acknowledgment techniques, ensuring that data is transmitted accurately and reliably, even in challenging conditions.

Another significant characteristic of the ZB2430 is its low power consumption. Designed for energy efficiency, this module allows devices to operate on battery power for extended periods, which is critical for applications like sensor networks and portable devices. With power-saving modes that can further extend battery life, the ZB2430 is ideal for applications where minimizing energy use is essential.

The ZB2430 also supports a variety of communication protocols, including point-to-point and mesh networking capabilities. The mesh networking feature allows devices to communicate with each other even when they are not within direct range, creating a highly scalable and resilient network. This is particularly beneficial in industrial automation and smart city applications, where reliable communication is paramount.

In terms of integration, the AeroComm ZB2430 is designed with ease of use in mind. It comes in a small form factor that can be easily incorporated into various devices, and it features a simple interface for developers. With its comprehensive documentation and support, developers can quickly implement and deploy Zigbee solutions.

In summary, the AeroComm ZB2430 is a powerful wireless module that excels in providing reliable, low-power, and scalable communication solutions for IoT applications. Its impressive range, energy efficiency, and support for mesh networking make it an attractive choice for developers looking to create innovative and robust wireless systems. Whether in home automation, industrial control, or smart city initiatives, the ZB2430 is poised to play a key role in the future of connected devices.