Dust Networks SmartMesh-XT M1030-2 Datasheet Download | Manualshive

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M1030-2 M

OTE

D

ATASHEET

D

UST

N

ETWORKS

™

C

ONFIDENTIAL

Product Description

The SmartMesh-XT™ M1030-2 embedded wireless mote uses Time Synchronized Mesh Protocol (TSMP) to enable low-
power wireless sensors and actuators with highly reliable wireless mesh networking. The M1030-2 is tailored for use in
battery- and line-powered wireless devices for applications that demand proven performance, scalability, and reliability.

The M1030-2 uses a 900 MHz radio to achieve more than 200-meter communication distance outdoors, while consuming
down to 30

μ

A in a typical network deployment. The combination of extremely high reliability and low power consumption

enables applications that require very low installation cost and low-maintenance, long-term deployments.

The standard serial and discrete input/output interfaces of the M1030-2 give it flexibility to be used in a wide variety of
different applications, from industrial process control to security, to lighting. When integrated into a product, the M1030-2 acts
like a network interface card (NIC)—it takes a data packet and makes sure that it successfully traverses the network. By
isolating the wireless mesh networking protocols from the user, the M1030-2 simplifies the development process and reduces
development risk.

Key Features

Reliable Networking

•

Uses Time Synchronized Mesh Protocol (TSMP) for
high reliability (>99.9% typical network reliability)

•

Frequency hopping for interference rejection

•

Mesh networking for built-in redundancy

•

Every M1030-2 acts as both an endpoint and a router,
increasing network reliability: “mesh-to-the-edge™”

•

Automatic self-organizing mesh is built in

Low Power Consumption

•

Ultra-low power components for long battery life

•

Network-wide coordination for efficient power usage

•

Down to 30

μ

A typical power consumption

Efficient Radio

•

2.5 mW (+4 dBm) RF output power

•

–88 dBm receiver sensitivity

•

Outdoor range >200 m typical

Predictable Integration

•

Standard High-level Data Link Control (HDLC) serial
interface with flow control in the receive direction

•

Discrete analog inputs and digital I/O for continuous or
event-based monitoring

•

FCC modular certification

•

Industrial temperature range –40

°

C

to +85

°

C

•

Supports socket or solder assembly

•

Rugged design for Class I Division I environments

900 MHz Wireless Analog/Digital/Serial Mote

M1030-2

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Summary of Contents for SmartMesh-XT M1030-2

Page 1: ...a packet and makes sure that it successfully traverses the network By isolating the wireless mesh networking protocols from the user the M1030 2 simplifies the development process and reduces developm...

Page 2: ...nd 0x82 Acknowledged Serial Payload Received from Mote Serial 14 7 4 3 4 Command 0x84 Time State Packet 14 7 4 3 5 Commands 0x87 and 0x88 Set Parameter Request Response 15 7 4 3 6 Commands 0x89 and 0x...

Page 3: ...M1030 2 MOTE DATASHEET DUST NETWORKS 3 9 2 3 OEM Labeling Requirements 26 9 3 Industrial Environment Operation 26 10 0 Ordering Information 27...

Page 4: ...GND 0 3 3 6 V Voltage on digital I O pin 0 3 VCC 0 3 up to 3 6 V Input RF level 10 dBm Input power at antenna connector Storage temperature range 45 85 C Lead temperature 230 C For 10 seconds VSWR of...

Page 5: ...output 0 7 x Vcc Vcc Vcc V VOL logical low output GND GND 0 25 x Vcc V Digital current Output source single pin 0 6 mA VOH 2 3 V 25 C Output sink single pin 0 6 mA VOL 0 5 V 25 C Input leakage curren...

Page 6: ...age reference source Vref is powered on before taking analog readings and complies with the timing diagram below Figure 1 Vref Timing Diagram 3 1 Application Circuit The following schematic shows how...

Page 7: ...y FSK NRZ Raw data rate 76 8 kbps Receiver sensitivity At 25 C 40 C At 85 C 85 83 88 dBm dBm At 10 3 BER Vcc 3 V Output power conducted At 25 C 40 C At 85 C 3 1 4 7 7 dBm dBm Vcc 3 V Range Indoor Outd...

Page 8: ...n driven active low the mote is hardware reset until the signal is deasserted Refer to section 6 1 for timing requirements on the RST pin Note that the mote may also be reset using the mote serial com...

Page 9: ...ernal Power Supply Timing Requirements The following reset sequence shown in Figure 5 and specified in Table 10 is required for external power supplies that fail to meet the requirements above Figure...

Page 10: ...he mote s network status may be polled via serial using the Get Parameter request see 7 4 3 6 with the mote state parameter see 7 4 4 3 See Figure 2 for an example application circuit 7 2 Discrete Inp...

Page 11: ...rt unless the microprocessor see Figure 9 is inactive on this port for the first 23 ms following the negation of reset To prevent unintentional detection of deep sleep all systems incorporating the mo...

Page 12: ...the interpacket_delay for communications into the mote and is defined as the minimum time after the mote receives the last byte of a packet before it can start receiving the next packet see Table 13 f...

Page 13: ...packet decoding Table 15 provides a summary of mote commands which are described in detail in the following sections For error handling all other packet types should be ignored The Destination column...

Page 14: ...ommand type 0x82 The network uses this command to send data out through the mote serial interface Upon receiving this packet from the network the mote forwards it to the microprocessor and sends an ac...

Page 15: ...of this document Table 19 Command 0x84 Time State Packet Msg Byte Description Data Type Value 1 Cmd type unsigned char 0x84 2 5 The sequential number of the frame unsigned long Cycle 6 9 The offset fr...

Page 16: ...yte Description Data Type Value 1 Cmd type unsigned char 0x89 2 unsigned char Parameter type 3 Data First byte of data 3 n Data Up to n 1 additional bytes of data Table 23 Command 0x8A Get Parameter R...

Page 17: ...D Reset Mote Msg Byte Description Data Type Value 1 Cmd type unsigned char 0x8D Table 26 Set and Get Command Parameters Parameter Type Set Parameter Get Parameter Description 0x01 X Set the mote s net...

Page 18: ...cket is sent in response to a request to retrieve the mote s current network connection state Table 30 Parameter Type 0x01 Network ID Set Request Msg Byte Description Data Type Value 1 Cmd type unsign...

Page 19: ...joined the network and is waiting to be configured 2 JOINING The mote has sent a join request waiting to be activated 3 ACT SEARCH The mote is actively searching for neighbors 4 5 PASS SEARCH The mote...

Page 20: ...a request for the network time and mote state information Table 37 Parameter Type 0x03 Frame Length Get Response Msg Byte Description Data Type Value 1 Cmd type unsigned char 0x8A 2 Parameter type uns...

Page 21: ...see Table 35 Table 42 Parameter Type 0x07 Mote Information Get Request Msg Byte Description Data Type Value 1 Cmd type unsigned char 0x89 2 Parameter type unsigned char 0x07 Table 43 Parameter Type 0...

Page 22: ...te payload limit Step 4 Add start and stop delimiters Enclose the above in start stop flags RFC 1662 Or simply the hexadecimal sequence 7E 87 01 00 7D 5D 2F 74 7E Example 2 Decoding an HDLC packet rec...

Page 23: ...see section 7 4 4 7 HDLC Packet Payload FCS 8A 07 00 20 00 00 5B 00 01 01 06 00 3C 00 00 00 00 00 00 7E C3 01 00 08 30 30 30 5F 45 56 30 31 00 13 00 00 40 E8 HDLC Packet Payload 8A 07 00 20 00 00 5B 0...

Page 24: ...Packaging Description 24 DUST NETWORKS M1030 2 MOTE DATASHEET CONFIDENTIAL 8 0 Packaging Description 8 1 Mechanical Drawings Figure 12 M1030 2 Mote Mechanical Drawing...

Page 25: ...rating the M1030 2 mote must comply with the following 1 An external label must be provided on the outside of the final product enclosure specifying the FCC identifier SJC M1030 as described in 9 1 3...

Page 26: ...Requirements The Original Equipment Manufacturer OEM must ensure that IC labeling requirements are met The outside of the final product enclosure must have a label with the following or similar text s...

Page 27: ...FIDENTIAL 10 0 Ordering Information Product List M1030 2 SmartMesh XT 900 MHz Analog Digital Serial Mote Contact Information Dust Networks 30695 Huntwood Ave Hayward CA 94544 Toll Free Phone 1 866 289...

Page 28: ...and expenses and reasonable attorney fees arising out of directly or indirectly any claim of personal injury or death associated with such unintended or unauthorized use even if such claim alleges th...

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