AeroComm ZB2430 manual T 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, O W C O N T R O L

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2 2

S E R I A L I N T E R F A C E

 

20

Stop Bit Delay =

(----------------------------------------------Baud Rate × 1ms)

E N G I N E E R ’ S T I P

Using a non-standard baud rate.

The ZB2430 supports a majority of standard as well as non-standard baud rates. To select a standard baud rate, use the value shown for EEPROM address 0x42 in Table 5 above. To enable a non-standard baud rate, program EEPROM address 0x42 (Custom Baud Enable) to 0xE3 and then use the equation above to solve for BAUD_M and BAUD_E.

I N T 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

Interface Timeout – Interface Timeout specifies a maximum byte gap between consecutive bytes. When that byte gap is exceeded, the bytes in the transmit buffer are processed as a complete packet. Interface Timeout (EEPROM address 0x58), in conjunction with the RF Packet Size, determines when a buffer of data will be sent out over the RF as a complete RF packet, based on whichever condition occurs first.

RF Packet Size - RF Packet Size is used in conjunction with Interface Timeout to determine when to delineate incoming data as an entire packet based on whichever condition is met first. When the transceiver receives the number of bytes specified by RF Packet Size (EEPROM address 0x5A) without experiencing a byte gap equal to Interface Timeout, that block of data is processed as a complete packet. Every packet the transceiver sends over the RF contains extra header bytes not counted in the RF Packet Size. Therefore, it is much more efficient to send a few large packets than to send many short packets.

Stop Bit Delay - For systems using the RS-485 interface, the RS-485 DE pin might be deasserted Low too quickly at the end of a packet (especially at slower interface baud rates). Stop Bit Delay (EEPROM address 0x3F) controls how long RS-485 DE should be left High at the end of a packet before dropping it Low and disabling the RS-485 driver circuitry. Generally, it should be set greater than or equal to two byte times.

F L O W C O N T R O L

Although flow control is not required for transceiver operation, it is recommended to achieve optimum system performance and to avoid overrunning the ZB2430’s serial buffers. The ZB2430 uses seperate buffers for incoming and outgoing data.

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Contents VE R S I O N Sales Technical SupportThis material is preliminary Limited Warranty, Disclaimer, Limitation of LiabilityDocument Information Copyright 2008 AeroComm, Inc. All rights reservedRevision Description Revision HistoryContents ZB2430 Transceiver Module 2 4 3 0 F E a T U R E SE R V I E W Physical SpecificationsB l e 1 Z B 2 4 3 0 Specification s GeneralCertifications 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 Router Theory of OperationE E 8 0 2 5 & Z I G B E E O V E R V I E W CoordinatorE a T I N G a N E T W O R K End DeviceS 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 PT W O R K L I M I T a T I O N S G 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 pX 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 GBit Network Addresses I t M a C a d d r e s sB l e 3 D e v i c e T a b l e E x a m p l e S h R o u t i n g a O DZB2430 User’s Manual O a d c a s t T r a n s m i s s i o n s B l e 4 B r o a d c a s t a d d r e s s e s Sending a Broadcast packetBroadcast Address Destination Group I M o d e Serial InterfaceT E R F a C E M O D E S A n s p a r e n t 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 EUsing a non-standard baud rate T E R F a C E T I M E O U T / R F P a C K E T S I Z EO 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 E p S l e e p W E R D O W N M O D E SB l e 7 S l e e p M o d e S e t t i n g s C l i c 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 ZB2430C O M M a N D S T h e F l y C o n t r o l 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 Write API Control Read Destination AddressAuto Destination Read API ControlWrite Digital Outputs Set Max PowerRead Digital Input Read ADCDiscover Ieee Address of Remote Radio Read 16-bit NWK AddressRead 16-bit NWK Address of Parent Device Discover 16-bit NWK Address of Remote RadioEeprom Byte Read Read TemperatureDiscover Ieee Address & Children of Remote Radio Read VoltageEeprom Byte Write ResetRestore Factory Defaults Soft Reset with NV resetLength Range Default Description Address Bytes Eeprom ParametersParameter Bytes Length Range Default Description AddressZB2430-Q ZB2430-D MAC ID I S e n d D a t a C o m p l e t e API OperationI T r a n s m i t P a c k e t G 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 tG 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 Command Definitions A d N e i g h b o r T a b l eG 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 Dimensions 2 4 3 0 M E C H a N I C a LG 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 InformationB 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 t Compliancy 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 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.