www.rfm.com e-mail: info@rfm.com technical support +1.800.704.6079 page 1 of 16 ?2010-2011 by rf monolithics, inc. e-mail: tech_sup@rfm.com xdm2510h - 03/17/11 xdm2510h 2.4 ghz ultra-low power wirelesshart rf transceiver module product overview based on dust networks? smartmesh ia-510(h)? technology, rfm?s xdm2510h module provides wirelesshart ? compatibility, excellent com- munications reliability and long battery life in a wide range of industrial auto- mation applications. the xdm2510h employs dynamic network optimization and intelligent routing to achieve carrier-class data reliability, low latency, and deterministic power management. the xdm2510h is tailored for use in bat- tery, energy savaging and loop powered devices for applications that demand robust wireless network reliability. the multi-functional interfaces of the xdm2510h gives it the flexibility to be used in a wide variety of industrial ap- plications, from process control and data acquisition to energy management. the xdm2510h requires no embedded programming, greatly reducing the development time and cost of a wireless sensor network application. the xdm2510h is certified for unlicensed operation in the usa, canada and europe. the xdm2510h complies with directive 2002/95/ec (rohs). pb key features wireless hart compliance ? interoperable with wirelesshart devices superior reliability ? robust network reliability in even the most challenging industrial environments ? frequency hopping provides interference rejec- tion and minimizes multipath fading ? automatic self-organizing mesh networking provides built-in network path redundancy ? every xdm2510h acts as both an endpoint and a router, increasing network reliability easy integration ? xdm2510h provides all the module functionality with no embedded programming or complex configuration requirements ? xdm2510h interfaces are well-designed and multi-functional ? industrial temperature range -40 to +85 c ? xdm2510hp version for plug-in installation, XDM2510HC version for solder reflow ultra-low power consumption ? industry leading 2.4 ghz radio technology is optimized for battery, energy scavenging or loop powered operation ? ultra-efficient power usage, enabled through smartmesh intelligent network management, delivers over a decade of network operation on two aa batteries ? automatic network-wide coordination for efficient power usage pre-certified module ? ieee 802.15.4 compliant module operates in the 2.4 ghz global license-free band ? xdm2510h is pre-certified for operation in the usa, canada and europe applications ? industrial automation ? process control and data acquisition ? machine health monitoring ? structural integrity monitoring ? energy management
www.rfm.com e-mail: info@rfm.com technical support +1.800.704.6079 page 2 of 16 ?2010-2011 by rf monolithics, inc. e-mail: tech_sup@rfm.com xdm2510h - 03/17/11 table of contents 1.0 xdm2510h introduction ..................................................................................................... .................... 3 2.0 absolute maximum ratings.................................................................................................. .................. 5 3.0 normal operating conditions ............................................................................................... .................. 5 3.1 current consumption....................................................................................................... ................. 5 4.0 electrical specifications................................................................................................. ......................... 6 4.1 digital i/o load .......................................................................................................... ....................... 6 4.2 digital i/o type 1 ........................................................................................................ ...................... 6 4.3 digital i/o type 2 ........................................................................................................ ...................... 6 4.4 digital i/o type 3 ........................................................................................................ ...................... 7 5.0 rf specifications ......................................................................................................... .......................... 7 5.1 radio specifications ...................................................................................................... ................... 7 5.2 antenna specifications .................................................................................................... ................. 8 6.0 module pinout ............................................................................................................. ........................... 9 7.0 boot sequence............................................................................................................. ........................ 10 8.0 hardware interfaces ....................................................................................................... ...................... 10 8.1 /reset in ................................................................................................................ ..................... 10 8.2 /time .................................................................................................................... ......................... 10 8.3 /led ..................................................................................................................... .......................... 11 8.4 settable i/o modes ....................................................................................................... ................. 11 8.4.1 mode1 - three/four/five signal serial interface (9600 b/s)................................................ 11 8.4.2 mode 3 - five signal serial interface (9600 b/s).................................................................. 12 8.4.3 uart timing values.................................................................................................... ........ 13 8.5 serial api ................................................................................................................ ........................ 15 8.6 temperature sensor ........................................................................................................ ............... 15 9.0 xdm2510h outline drawings ................................................................................................. ............. 16 9.1 xdm2510hp pinned configuration ............................................................................................ .... 16 9.2 XDM2510HC castellated pad configuration.................................................................................. 1 6
www.rfm.com e-mail: info@rfm.com technical support +1.800.704.6079 page 3 of 16 ?2010-2011 by rf monolithics, inc. e-mail: tech_sup@rfm.com xdm2510h - 03/17/11 1.0 xdm2510h introduction rfm ? s xdm2510h is a 2.4 ghz ieee 802.15.4 wirelesshart compliant radio module designed to provide excel- lent communications reliability and long battery life in a wide range of industrial automation applications. the xdm2510h employs dust networks ? smartmesh ia-510(h) ? technology which blends the reliability of self- organizing and self-healing mesh networking with synchronized power duty cycling to achieve very long battery life operation. the xdm2510h is certified for unlicensed operation in the usa, canada and europe. an example xdm2510h network is shown in figure 1. the network consists of an xg2510he or equivalent wirelesshart gateway/network manager and xdm2510h-based sensor nodes. the xg2510he provides both the xdm2510h network management function and the gateway application interfaces. the xg2510he includes an ethernet port that supports xml-based network commands, and two rs232 serial ports that support binary string network com- mands, diagnostics, etc. � � � � � � � �
� �
� � � � � � � � � � � � � � �
� � � � � � � � � � � � � � � � � � � � � � � �
� � � � � � � � � � � � � � � � � �
� � � � � � � � � � � � � � � � � �
� � � � � � � � � � � � � � � � � �
� � � � � � � � � � � � � � � � � �
� � � � figure 1 smartmesh ia-510(h) ? traffic is organized in to tdma frames consisting of 10 ms time slots. the xg2510he assigns time slots to each xdm2510h node in the network, and then maintains a precise report interval (frame-to- frame period) to provide a highly synchronized network. network operation also hops from channel to channel in a pseudorandom pattern to mitigate the effects of multipath fading and narrowband interference. the xdm2510h monitors performance on each channel and will temporarily discontinue the use of a channel that is showing poor performance statistics. mesh networking allows traffic to be passed from xdm2510h node-to-node so that messages can be delivered to and from nodes that can not communicate directly with the xg2510he gateway/manager. at least two paths are maintained by the network for communication between each node and the gateway/manager. as needed, new paths will be automatically established to replace a failing paths to maintain network performance.
www.rfm.com e-mail: info@rfm.com technical support +1.800.704.6079 page 4 of 16 ?2010-2011 by rf monolithics, inc. e-mail: tech_sup@rfm.com xdm2510h - 03/17/11 as shown in figure 2, each sensor node in the network consists of an xdm2510h radio module and a host mi- crocontroller with sensor i/o electronics. the host microcontroller communicates with the xdm2510h radio mod- ule on a serial interface using binary command and response strings. � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � ! " � # � � � # $ " # � � � % $ & # � � � # $ & # � � # � � # � ' � � � � � � � � � � � � ( ' ' � � � � � � � � � � ) � � ( � � � � � � � � � � � � � � � � � � � ' * � � ( � � � � � � � � � � � � � � � � � � ! * � ' * � � figure 2 rfm ? s xdm2510h delivers the wirelesshart compatibility, exceptional network reliability and ultra-low power operation capabilities of smartmesh ia-510(h) ? technology in a fully functional, pre-certified radio module that is easily interfaced to a wide variety industrial automation applications.
www.rfm.com e-mail: info@rfm.com technical support +1.800.704.6079 page 5 of 16 ?2010-2011 by rf monolithics, inc. e-mail: tech_sup@rfm.com xdm2510h - 03/17/11 2.0 absolute maximum ratings the ratings below should not be exceeded under any circumstances. damage can be caused by exceeding one or more of these parame ters. parameter minimum typical maximum units comments supply voltage -0.3 5.5 v voltage on any digital i/o pin -0.3 3.6 v input rf level 10 dbm input power at antenna connector storage temperature range -40 +85 c solder reflow profile +245 c for 10 seconds vswr of antenna 3:1 esd protection antenna port 250 v hbm all other i/o 2 kv hbm 200 v cdm * all voltages are referenced to module ground caution! this is an esd sensitive device. use proper esd handling procedures when working with the device to prevent permanent damage. table 1 3.0 normal operating conditions parameter minimum typical maximum units comments operational supply voltage range (between v dd and v ss ) 2.85 3.60 5.50 v including noise and load regulation voltage supply noise 100 mv p-p 50 hz to 2 mhz operating temperature range -40 +85 c maximum allowed ambient temperature ramp during operation 8 c/min -40 c to +85 c operating relative humidity 10 90 % rh non-condensing unless otherwise noted, v dd is 3.6 v and temperature is -40 c to +85 c. table 2 3.1 current consumption parameter minimum typical maximum units comments transmit 18 ma receive 6 ma sleep 8.5 a table 3
www.rfm.com e-mail: info@rfm.com technical support +1.800.704.6079 page 6 of 16 ?2010-2011 by rf monolithics, inc. e-mail: tech_sup@rfm.com xdm2510h - 03/17/11 4.0 electrical specifications 4.1 digital i/o load parameter minimum typical maximum units comments total capacitance 0.5 f total inductance 84 nh unless otherwise noted, v dd is 3.6 v and temperature is -40 c to +85 c. table 4 4.2 digital i/o type 1 digital signal minimum typical maximum units comments v il (low-level input voltage) -0.3 0.6 v v ih (high-level input voltage) 2.7 3.6 v v ol (low-level output voltage) 0.4 v v oh (high-level output voltage) 2.4 v digital current * output source (single pin) 3.7 ma 25 c output sink (single pin) 2.0 ma 25 c input leakage current 50 na * this current level guarantees that the output voltage meets v oh and v ol specifications above. table 5 4.3 digital i/o type 2 digital signal minimum typical maximum units comments v il (low-level input voltage) -0.3 0.6 v v ih (high-level input voltage) 2.7 3.6 v v ol (low-level output voltage, multi-function i/o configured as output) 0 0.6 v i ol < 0.6 ma, 85 c v oh high-level output voltage, multi-function i/o configured as output) 2.7 3.3 v i oh > -0.4 ma, 85 c digital current * output source (single pin, multi- function i/o configured as output) 0.4 ma 25 c output sink (single pin, multifunc- tion i/o configured as output) 0.6 ma 25 c input leakage current 50 na 25 c * this current level guarantees that the output voltage meets v oh and v ol specifications above. table 6
www.rfm.com e-mail: info@rfm.com technical support +1.800.704.6079 page 7 of 16 ?2010-2011 by rf monolithics, inc. e-mail: tech_sup@rfm.com xdm2510h - 03/17/11 4.4 digital i/o type 3 digital signal minimum typical maximum units comments v il (low-level input voltage) -0.3 0.6 v v ih (high-level input voltage) 2.0 3.6 v v ol (low-level output voltage) 0.4 v v oh (high-level output voltage) 3.1 v digital current * output source (single pin) 100 a 25 c output sink (single pin) 1.6 ma 25 c input leakage current 50 na 25 c * this current level guarantees that the output voltage meets v oh and v ol specifications above. table 7 5.0 rf specifications 5.1 radio specifications parameter minimum typical maximum units comments operating frequency 2.4000 2.4835 ghz number of channels 15 channel separation 5 mhz occupied channel bandwidth 2.7 mhz at -20 dbc frequency accuracy -40 +40 ppm modulation ieee 802.15.4 dsss raw data rate 250 kbps receiver operating maximum input level 0 dbm receiver sensitivity -92.5 dbm at 50% per, v dd = 3.6 v, 25 c -90.0 dbm at 1% per, v dd = 3.6 v, 25 c output power, conducted +8 dbm v dd = 3.6 v, 25 c table 8
www.rfm.com e-mail: info@rfm.com technical support +1.800.704.6079 page 8 of 16 ?2010-2011 by rf monolithics, inc. e-mail: tech_sup@rfm.com xdm2510h - 03/17/11 5.2 antenna specifications the antenna must meet the specifications in table 9 below. when the xdm2510h is placed inside an enclosure, the antenna should be mounted such that the radiating portion of the antenna protrudes from the enclosure, with the antenna connected to the module using a coaxial cable. for optimum performance, position the antenna vertically when installed. the xdm2510h has been fcc certified as a module with both a dipole antenna and a patch antenna. any 2.4 ghz dipole antenna or 2.4 ghz patch antenna with a gain less than or equal to 12 dbi may be used without the need for any fcc type acceptance testing. if a different antenna type or a higher gain dipole or patch is to be used, please contact rfm technical support for more information. antenna parameter value frequency range 2.4000 - 2.4835 ghz impedance 50 ohms maximum vswr 3:1 table 9
www.rfm.com e-mail: info@rfm.com technical support +1.800.704.6079 page 9 of 16 ?2010-2011 by rf monolithics, inc. e-mail: tech_sup@rfm.com xdm2510h - 03/17/11 6.0 module pinout pin name i/o type description 1 gnd - connect to the host circuit board ground. 2 nc - leave unconnected. 3 nc - leave unconnected. 4 nc - leave unconnected. 5 uart_tx type 2 output serial data output from the xdm2510h module uart. 6 uart_rx type 2 input serial data input to the xdm2510h module uart. 7 /mt_rts type 2 output active low output to the host signaling the xdm2510h has a packet to deliver. 8 mode type 2 input mode b input, normally grounded. 9 nc - leave unconnected. 10 /sp_cts type 2 input active low input from the host signaling it is ready to receive a packet. 11 /time type 2 input active low input to trigger the xdm2510h to send a timestamp packet. 12 /mt_cts type 1 output active low clear to send output from xdm2510h to the host. 13 nc - leave unconnected. 14 vbat power power supply input, +2.85 to +5.5 v 15 gnd - connect to the host circuit board ground. 16 gnd - connect to the host circuit board ground. 17 /reset in type 1 input active low xdm2510h reset input. 18 /led type 1 output active low status led driver output. 19 nc - leave unconnected. 20 nc - leave unconnected. 21 nc - leave unconnected. 22 nc - leave unconnected. 23 nc - leave unconnected. 24 nc - leave unconnected. 25 nc - leave unconnected. 26 nc - leave unconnected. 27 nc - leave unconnected. 28 gnd - connect to the host circuit board ground. 29 nc - leave unconnected. 30 gnd - connect to the host circuit board ground. - connector rf u.fl coaxial antenna connector. table 10
www.rfm.com e-mail: info@rfm.com technical support +1.800.704.6079 page 10 of 16 ?2010-2011 by rf monolithics, inc. e-mail: tech_sup@rfm.com xdm2510h - 03/17/11 7.0 boot sequence following the active low assertion of /reset in, the xdm2510h completes its boot-up process by loading and decrypting the application image and loading the operating parameters. during the boot process, the modules output signals are not actively driven and the input signals are ignored. the duration of the boot process is de- fined in table 10. boot parameter minimum typical maximum units comments t boot_delay 6 s the time between power up and serial interface availability table 11 8.0 hardware interfaces 8.1 /reset in when this signal is asserted low, the xdm2510h is hardware reset until the signal is de-asserted. note that the xdm2510h may also be reset using the reset serial command. if a system is designed to assert /reset in after the xdm2510h has completed its boot process, it is recommended the module be placed into deep sleep prior to assertion of the /reset in signal. 8.2 /time the xdm2510h has the ability to deliver network-wide synchronized timestamps. the xdm2510h sends a time packet through its serial interface when one of the following occurs: ? hdlc request for time is received. ? active-low /time signal is asserted. use of the /time input is optional but has the advantage of being more accurate. the value of the timestamp is taken within approximately 1 ms of receiving a /time signal assertion. the xdm2510h will send the time packet to the local host microcontroller within 100 ms of the strobe. if the hdlc request is used, due to packet process- ing the value of the timestamp may be captured several milliseconds after receipt of the packet. the real time de- livered to the sensor processor is relative to the real-time clock on the network manager, which serves as the network real time clock (nrtc). � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �
� � � � � � � � � � � # � � % � � � � � � ) & & � + + � � � # � + � % � � � � � " ,
� �
� � � figure 3 tx t strobe t response time packet time figure 4
www.rfm.com e-mail: info@rfm.com technical support +1.800.704.6079 page 11 of 16 ?2010-2011 by rf monolithics, inc. e-mail: tech_sup@rfm.com xdm2510h - 03/17/11 /time parameters meaning minimum maximum units t strobe time strobe pulse width 125 s t response time strobe active low assertion to start of time packet 100 ms table 12 8.3 /led the xdm2510h provides an output to drive a status led. this signal indicates network connectivity information, which is useful during xdm2510h system installation. alternatively, the xdm2510h status may be polled using the serial get parameter request with the module state parameter. /led signal behavior xdm2510h state high off, or in sleep mode single blink (750 ms low, 3 s high) on, and searching for potential network double blink (750 ms low, 750 ms high, 750 ms low, 3 s high) on, and attempting to join the network triple blink (750 ms low, 750 ms high, 750 ms low, 750 ms high, 750 ms low, 3 s high) on, and attempting to establish redundant links low on, fully configured into network with redundant parents table 13 8.4 settable i/o modes the xdm2510h offers a choice of two i/o modes. the functionality of the interface will be determined by the set- ting mode input. mode pin setting mode 1 mode 3 setting externally tied low externally tied high table 14 both modes provide a means of transmitting and receiving serial data through the wireless network, and a com- mand interface that provides synchronized time stamping, local configuration and diagnostics. mode 1 imple- ments an 8-bit, no parity, 9600 baud, three, four or five-signal serial interface with bidirectional packet-level flow control operating at 9600 b/s. in certain designs, one or two of the serial handshake signals may be optional for reduced pin count. please refer to detailed descriptions of signals. mode 3 implements an 8-bit, no parity, 9,600 baud, five-signal serial interface with bidirectional packet-level flow control and byte-level flow control in the xdm2510h-to-microcontroller direction only. 8.4.1 mode 1 - three/four/five signal serial interface (9600 b/s) xdm2510h mode 1 provides a three, four, or five-signal serial interface optimized for low-powered embedded applications, and in certain designs may provide a lower pin count serial solution. the mode 1 serial interface is comprised of the data pins uart_tx and uart_rx, with handshake pins /mt_rts, /mt_cts, /sp_cts used for bidirectional flow control. the /mt_rts signal is ideal for designs where the host microcontroller requires ex- tra time to prepare to receive a packet. for example, when the host microcontroller sleeps periodically and re- quires a wake-up signal prior to receiving a packet. refer to table15 for information on each pin, including details on which pins are optional.
www.rfm.com e-mail: info@rfm.com technical support +1.800.704.6079 page 12 of 16 ?2010-2011 by rf monolithics, inc. e-mail: tech_sup@rfm.com xdm2510h - 03/17/11 mode 1 pin usage pin i/o usage uart_rx input serial data moving from the microcontroller to the xdm2510h. uart_tx output serial data moving from the xdm2510h to the microcontroller. /mt_rts output /mt_rts provides a mechanism to wake the microcontroller in order to receive a packet. /mt_rts is asserted when the xdm2510h is ready to send a serial packet. the signal stays low until the /sp_cts signal from the microcontroller is detected low by the xdm2510h, indicating readiness to receive a packet, or the t mt_rts to sp_cts timeout defined in section 8.4.3 expires. if /mt_rts times out, it will de-assert /mt_rts, wait for t mt_rts retry and then re-assert /mt_rts to attempt to send the packet again. /mt_rts may be ignored by the micro- controller only if /sp_cts always stays low. /sp_cts input /sp_cts provides packet level flow control for packets transferred from the xdm2510h to the microcontroller. when the microcontroller is capable of receiving a packet it should assert the /sp_cts signal. /sp_cts may be externally tied low (reducing pin count) only if the microcontroller is always ready to receive a serial packet. /mt_cts output /mt_cts provides packet level flow control for packets transferred from the microcontroller to the xdm2510h that are destined for transfer over the network. upon reset, following boot the xdm2510h will negate /mt_cts until the xdm2510h establishes a wireless network connection. during operation, the xdm2510h will negate /mt_cts if the xdm2510h does not have sufficient buffering to accept another packet. /mt_cst will also remain high if the xdm2510h is not part of the network. the microcontroller must check that the /mt_cts pin is low before initiating each serial packet for wireless transmission. note that the xdm2510h may receive local serial packets at any time regardless of the /mt_cts state. /time input the /time pin can be used for triggering a timestamp packet. its usage is optional. table 15 8.4.2 mode 3 - five signal serial interface (9600 b/s ) the xdm2510h mode 3 provides a five-signal serial interface with byte-level flow control on transfers from the xdm2510h to the microcontroller. the mode 3 serial interface is consists of data pins uart_tx and uart_rx, with handshake pins /mt_rts, /mt_cts and /sp_cts used for bidirectional flow control. the /mt_rts signal is ideal for designs where the microcontroller requires extra time to prepare to receive a packet. for example, the host microcontroller sleeps periodically and requires a wake-up signal prior to receiving a packet). refer to table 16 for information on each handshake pin, including details on which of those pins are optional. mode 3 pin usage pin i/o usage uart_rx input serial data moving from the microcontroller to the xdm2510h. uart_tx output serial data moving from the xdm2510h to the microcontroller. /mt_rts output /mt_rts provides a mechanism to wake the microcontroller in order to receive a packet. /mt_rts is as- serted when the xdm2510h is ready to send a serial packet. the signal stays low until the /sp_cts signal from the microcontroller is detected low by the xdm2510h indicating readiness to receive a packet, or the t mt_rts to sp_cts timeout defined in section 8.4.3 expires. if /mt_rts times out, it will de-assert /mt_rts, wait for t mt_rts retry and then re-assert /mt_rts to attempt to send the packet again. /sp_cts input /sp_cts provides both packet level and byte level flow control for packets transferred from the xdm2510h to the microcontroller. when the microcontroller is capable of receiving a packet it should assert the /sp_cts signal. in mode 3, byte-level flow control is achieved by having the microcontroller de-assert and then re-assert the /sp_cts signal following the receipt of each byte. the xdm2510h will begin transmission of the next byte after detecting the re-assertion of /sp_cts. /mt_cts output /mt_cts provides packet level flow control for packets transferred from the microcontroller to the xdm2510h that are destined for transfer over the network. upon reset, following boot the xdm2510h will negate /mt_cts until the xdm2510h establishes a wireless network connection. during operation, the xdm2510h will negate /mt_cts if the xdm2510h does not have sufficient buffering to accept another packet. /mt_cts will also remain high if the xdm2510h is not part of the network. the microcontroller must check that the /mt_cts pin is low before initiating each serial packet for wireless transmission. note that the xdm2510h may receive local serial packets at any time regardless of the /mt_cts state. /time input the /time pin can be used for triggering a timestamp packet. its usage is optional. table 16
www.rfm.com e-mail: info@rfm.com technical support +1.800.704.6079 page 13 of 16 ?2010-2011 by rf monolithics, inc. e-mail: tech_sup@rfm.com xdm2510h - 03/17/11 8.4.3 uart timing values variable meaning minimum maximum units t rx_baud deviation from baud rate -2 +2 % t rx_stop number of stop bits, 9600 b/s 1 bit period t rx_stop number of stop bits, 115.2 kb/s 1.5 bit period t tx_baud deviation from baud rate -1 +1 % t tx_stop number of stop bits 1 bit period t sp_cts to mt_rts assertion of /sp_cts to negation of /mt_rts 0 10 ms t mt_rts to sp_cts assertion of /mt_rts to assertion of /sp_cts 500 ms t mt_rts retry time from a /mt_rts timeout to the retry 500 ms t sp_cts to tx assertion of /sp_cts to start of byte 0 10 ms t tx to sp_cts start of byte to negation of /sp_cts 1 bit period t sp_cts ack pw negation pulse width of /sp_cts 500 ns t diag_ack_timeout the xdm2510h responds to all requests within this time. 125 ms t interbyte_timeout falling edge of tx to falling edge of /sp_cts (mode 3 only) 7.1 ms t interpacket_delay the sender of an hdlc packet must wait at least this amount of time before sending another packet 20 ms table 17 power-on sequence tx high-z high-z high-z t boot_delay rst mt_rts mt_cts figure 5
www.rfm.com e-mail: info@rfm.com technical support +1.800.704.6079 page 14 of 16 ?2010-2011 by rf monolithics, inc. e-mail: tech_sup@rfm.com xdm2510h - 03/17/11 byte-level timing lsb msb stop rx tx lsb msb stop t rx_baud t rx_stop t tx_baud t tx_stop figure 6 flow control timing figure 7
www.rfm.com e-mail: info@rfm.com technical support +1.800.704.6079 page 15 of 16 ?2010-2011 by rf monolithics, inc. e-mail: tech_sup@rfm.com xdm2510h - 03/17/11 packet timing figure 8 8.5 serial api the xdm2510h offers a comprehensive application programming interface (api) that provides full programmatic access to control the mote, monitor its status (such as battery charge and network status), and provide access to the wireless mesh network. refer to the xdm2510h module serial api guide for more information. 8.6 temperature sensor the xdm2510h has an on-board temperature sensor. the temperature readings are available locally through the mote serial api and through the network at the manager via the xml or serial api. for more information, refer to the xdm2510h module serial api guide , xg2510he gateway/manager serial api guide , or xg2510he gate- way/manager xml api guide . parameter minimum typical maximum units comments temperature sensor input range -40 85 c temperature sensor accuracy 7 c table 18
www.rfm.com e-mail: info@rfm.com technical support +1.800.704.6079 page 16 of 16 ?2010-2011 by rf monolithics, inc. e-mail: tech_sup@rfm.com xdm2510h - 03/17/11 9.0 xdm2510h outline drawings 9.1 xdm2510hp pinned configuration (dimensions in inches) figure 9 9.2 XDM2510HC castellated pad configuration (dimensions in inches) figure 10 wirelesshart ? is a registered trademark of the hart communication foundation smartmesh ia-510(h) ? is a trademarks of dust networks, inc. p/n m-2510-0000 rev a
|
