Anyone have the part number for the female header the Xbee plugs into? I need to replace one.

I'm trying to attach this board to the LiPo Charger: PRT-14411 even without batter with direct connection to USB the consumption of the Charger is about 2mA. When I plug the empty WRL-11373 without XBee attached, I got: 1. Current consumption rises to 47 mA! 2. Input voltage drops from 5V to 3.9V and the Boost led has darkned.

I've tried two other sets of Charger/WRL with jumper wires with the same result.

UPDATE: I've figured that out. Seems like Charger requires LiPo battery presence. No 5V bypass.

hello, in fact i am trying to connect the XBee regulated board to arduino uno but the XCTU software is not detecting the xbee S2C . Can anyone help me to solve the problem

well I can confirm that you need the now retired "Crossover Breakout for FTDI" to make this work with XCTU and serial port on computer (To receive data). Lucky I had that laying around in the basement!

What size wire should be used when soldering to the board? I am planning to install the board and then wire all of the IO to a separate terminal strip. It looks like perhaps 20awg?

So i think i figured it out. I was using this board to use a Xbee Pro S3B XSC module for telemetry. Would work perfectly using FTDI's but wouldn't work with my Pixhawk. Turns out that the logic on the DIN/DOUT is also for 5v, so you can power it via 5v (the power pins for TELEM1&2, but the logic pins are 3v, so running them through the DIN/DOUT won't work. I'm going to wire them directly to the board since it's native voltage. Oh and yes, you do need to remove the RSSI LED to get the module to work. Was about to give up but seems to work nicely now. Also the TX/RX are reversed so plugging directly into a FTDI board won't work, you'll need to crossover the TX/RX lines.

I'm trying to get this to work with the Pixhawk, however I can't seem to get it to work. I've tested: The board w/Xbee Pro XSC with an FTDI (works, aka, I can talk to it from another xbee) The Pixhawk with an FTDI (works) But once I plug the board into the Pixhawk, it doesn't work. I've changed Tx/Rx and did all the tests without CTS or DTR plugged in for consistency. Any ideas?

I would like to use this board with Tiva C microcontroller and I want to know if it is possible to simply step up the current rather than the voltage. My microcontroller already outputs 3.3v, but I want to make sure it doesn't pull too much current.

Can I also input into this regulator 3.7 volts?

If you are using the SPI interface instead of the UART, it looks like the signals are NOT level shifted ?

Since using the SPI interface data can run into the MHZ range what level shifters that you carry would you suggest using with this ?

Which regulator does this use? It can take up to 16v input right?

Do the I/O pins from the xbee still output 3.3v or does it get shifted back up to 5v?

In future versions, I'd love to see a separate VIN from the 5V used for level shifting so I can power the XBee Xplorer with 12V system power and still hook it up for communication with a 5V microcontroller.

I have one of these, but actually want to just do 3.3V I/O. Can I use this board as a simple break-out board, by connecting to the IN/OUT pins on the sides, rather than the DIN/DOUT pins at the bottom? And if I only have a 3.3V rail, would connecting this to both 3.3V and 5V make sure the regulator doesn't break? (back-feeding regulators is a bad idea in general, but equal potential should be safe)

I would like to put this board straight on top of an Arduino Pro Mini 5v. The description states: "The board was conveniently designed to mate directly with Arduino Pro boards", but the pin spacing seems to be slightly different (the long rows of pins seem to be further apart on the arduino pro mini). Does this work?

Please help this newbie, who is looking to power the xbee standalone (with no microcontroller) using AA batteries. I plan to use the xbee in router mode to switch colors on a remote LED strip that will be powered using 8 AA cells (12V total). I'm hoping to use the same power supply for the xbee. Would this board do the needful? Thanks!

I bought one of these to wire into a Pixhawk as described here: http://copter.ardupilot.com/wiki/common-optional-hardware/common-telemetry-landingpage/common-telemetry-xbee/

And I can not get it to work no matter which way I wire the TX and RX lines (I'm using an Xbee S3B 900HP). My Xbee works perfectly with: http://www.ebay.com.au/itm/XBee-Explorer-Xbee-USB-Mini-Adapter-With-Free-USB-Cable-Module-Board-Base-/181479114444?pt=LH_DefaultDomain_15&hash=item2a40ff86cc

Are the schematics for this product correct? For the Din and Dout it looks as if the MOSFET is bypass completely. Maybe I just dont understand how its supposed to work, but there is a trace directly from the input/output of the arduino to the xbee without the mosfet inline. The drain of the MOSFET also appears to route to 5V and not 3.3V like the schematic indicates.

This regulator can be used to output 5VDC additionally to 5VDC for supply?

Hi, when I connect the Xbee to a Arduino Duemilanove with this explorer the tension at the DIN and DOUT is constant. If I connect at the 5v and monitor at the multimeter both show 4.46 and if I connect to the 3.3v at the multimeter show 3.24.

Is it correct? I thought that the DIN and DOUT only had tension when use it, at my tests the LEDs never blink. The only led that blink is the RSSI when send a command to the Xbee.

Update: I identified that if I detached the 5V PIN the energy continue (regulator power led on) while the RX is connected at the the Arduino, is this correct too?

Best regards,

I am trying to use this board to setup the Xbee with XCTU. However, I cannot establish communication with the Xbee to the program. I am using the following connections: 5V ~ 5V, Gnd ~ Gnd, TX ~ Dout, RX ~ Din I also flipped the TX and RX. I first soldered two Xbee Adapters and they did not work, then I wired wrapped a separate one. These same Xbees also work with my Parrallax adapters. Is there anything that I am doing wrong or are these Xbee Adapters defective?

In my project (a very simple case of transfering 1 remote digital input (switch) to a base digital output (ssrelay), as in the digi sample. Using the 2 AAA battery case with switch and 2 basic series 1 xbees, I wanted to power the remote unit with 3 Volts. Can/should I use this breakout board or solder the whole setup straight to the XBEE ? In testing, using this breakout works, but fails after 4 meters in direct clear line. Before I solder to the xbee, any advice/reasoning/warnings ?

Hello. I tried to use a 9V battery to power the board but got smoke. Looks like C3 does not handle 9V, What is the voltage rating for this cap? What else should I remove/ or de-solder in order to avoid any future smoke/blown on the board?

I am testing this module with Arduino Pro 5v and Xbee Pro Series1 and I have this wiring Pin on XBee / Pin on ATMega:

Din / Tx Dout / Rx 5V / Vcc GND / GND

But did't work. The Xbee configuration is correct ( I have tested with Xbee Explorer USB) but this module don't stablish comunication. I can't show Din or Dout leds while I am sending values with the Arduino Pro.

I must use the DiO3 of Xbee Explorer or I have any mistake with my wire configuration?

Thanks

I keep seeing questions about the regulator... The ones I just received (marked V14) have Micrel MIC5219-3.3BM5 regulators on them. SOT-23-5 package, topside marking "LG33". Datasheet indicates 500mA PEAK output. Continuous output gets complicated (varies depending on input voltage, thermal situation, etc.) but 200mA continuous seems to be about typical with a 5 volt input. Higher input voltages will result in lower continuous current capability due to greater dissipation.

From a practical standpoint, I've been running mine all day with a 50 mW XBee Pro with RPSMA antenna (XBP24-ASI) and 5 volt power supply, and it's doing just fine - no sign of overheating, no thermal shutdowns, no problems.

So, since it could handle up to 16V I connected a 9V battery to GND and the 5V input, en then the C3 completely burned out with a small cloud of smoke and the well known smell. Did I make a rookie mistake? Or did I have bad luck with an already faulty piece of hardware?

What is the functional difference between this product and the XBEE shield (WRL-10854) besides that it is a shield that can be plugged directly on an Arduino? The 'forwarded' reset button? This one is 1.5x cheaper...what do I miss?

Can this module be powered from the Arduino?

I want to pair Xbee with the Arduino Yun, why would I buy the shield instead of this one?

I tried to use this board with the 5V FTDI cable (https://www.sparkfun.com/products/9718), unfortunately I'm unable to connect to the XBee module. The XBee Explorer (https://www.sparkfun.com/products/8687) works without any issues. Any idea what's wrong here?

Is it required to have any on board connections between pins or soldering on this board to make use of boards pins 5v,din,dout,GND to be connected to arduino ??

I have buyed two units of this module and looks like didn't work. I had a xbee pro s1 module connected to my Arduino pro with a tension divider and all works fine. I have changed this by the regulated module and didn't works.

I have connected Module -> Arduino Pro 5v -> Vcc Gnd -> Gnd Dout -> Rx Din -> Tx All works fine if I reconnect my Xbee directly with a tension divider Any Idea?

Can I connect this device to a arduino lylipad?

I'm trying to use this explorer with XBee Pro 900. It is suggested that the diode D1 should be shorted. But, I cannot find the diode at the schematic. Can you be more specific? Is it the LED marked DIN, or something else? Thanks.

Given that the 3.3V regulator has a max 16V input, is it a fair to say that a 16V input would make the DIN and DOUT signals 16V? I can see that the level shifter will provide 3.3V to the XBee, but won't the high voltage reference be the same as the supply voltage? I'm thinking this would blow the works on the Arduino side (if using one), where the TX and DX pins accept only 5V. I'm still learning to read the schematics properly, but this looks to be the case. Is this right? If so, it's the users responsibility to supply ~5V?

What is use of this product? pls say it cleary.... converts ttl 5V to cmos 3.3V for DIN and converts 3.3V to 5V for DOUT... Am i correct? if it is wrong pls say....

Does this output a 5v signal? I need to use it to receive a serial signal then pass it to a 5v servo controller

Is it very problematic to use this Explorer with a 3.3v PRO? I know I dont need the regulated one in this case but, I REALY like the possibility of staking the exprorer directly into the arduino, and the not regulated one does not have the headers ! You should provide this header on the not regulated one ! (that is also much cheaper), but in the meantime, use this with the 3.3v will case problems??

Thanks !!

In the schematic are inverted labels: IN - DIN, OUT - DOUT?

Any documents available for a Noob about how to best use this with Arduino Uno? Wanting to use a Series 1 Pro Xbee. Expected documentation with this. None to be found in the box it shipped in.

It appears I've ruined a second XBee Explorer Regulated after soldering wires. I've never run into this again. I'm a delicate solderer and don't feel I overheated the pads--I do this every day. Apparently, I've broken the solder to trace connection. For Din and Dout, two pads for each (on the end and on the 0.1 pad near the 2mm 10p connection point) and a track between them and to the SMD pad on 2mm 10p connect. On the first board I soldered, both Din and Dout on the end broke. Then I pulled out another new explorer board and reassembled another set of wires to the end Din/Dout, as well as add (again) header pins for testing to the 2nd pad. This time the Din connection between the 2nd pad and SMD 2mm tail broke. Not obvious from looking at the boards but the boards are useless now. These boards are cheaply made! I'm very disappointed. Excuse me while I find another source for this board.

I found it difficult to believe that it was the board but as it turned out

Hello all,

Just a quick question. Can we combine this board with the RN-XV WiFly Module - Wire Antenna (WRL-10822) module? I think it can, but just to be on the safe side...

thx

Question about using the DTR pin on the 6 pin header, I see on the schematic it is tied to dio3. The schematic does not show that it is pulled up to 5v. My question is: is the DTR pin on the header expecting a 3.3v signal when dio3 is an input and is it sourcing 3.3v when dio3 is an output. I understand that if I use a solder bridge on sj1 (rst to dio3) that when the xbee receives a reset signal and dio3 is an output, then the dtr pin on the 6 pin header will go low otherwise it is pulled high somehow.
Is this correct? Thanks

It's difficult to get a solid connection to the pro mini with these guys without having to finalize your project (solder). If you wanna make sure everything works before soldering your you're gonna have a difficult time. I don't understand why the holes have to be so big?

Can you guys make the holes smaller? or at the very least add a switch so i can still upload sketches after i've soldered.

Note: if you are going to use this module with an XBee-Pro XSC module, you have to physically remove the RSSI LED or the R4 resistor. The XSC has a different pinout compared to a normal XBee and this LED will drive the config pin low and cause the module to be unresponsive.

Hi there!

I am trying to use this board to connect an xbee pro s2b to the serial bus on a raspberry pi's GPIO. I am connecting the RX pin (10) from the GPIO to the out pin on the sparkfun board and the TX pin (8) to the in pin. I have tried using both 3.3 volts and 5 volts from the GPIO. However in all cases the power led just seems to blink in distress... I know the radios work because I can connect them from my USB xbee explorer on a PC to an arduino an get them talking. Its just the hookup to RPi... Anyone else have a similar problem?

Thanks if anyone can help,

Mike.

I have a question, as well...

I looked at the schematic, and I'm pretty sure, but not completely. Are DIN and DOUT the same as IN and OUT?

I'm using a book that seems to use the old version of this board, but some of the labels aren't clear in the pictures, and they connect wires to the locations that currently correspond to IN and OUT but call them DIN and DOUT in the text. Later in the book, of course, they connect all the wires to the end, while saying they're connecting to 3.3V, DIN and DOUT. Even in the old version, it looks like they're connecting to 5V and not 3.3V. Does it even matter which I connect to? I'm using an Arduino UNO R3, but doesn't this board convert to 3.3V regardless?

The only reason I care is that it will impact how much space I have left on my protoshield.

Is the DOUT line coming out a 5V? I'm afraid it could blow out my Arduino Due, whereas the old ones won't.

I do get dropped bits now and then. Is that the issue with the old ones? Can I get a discount on a new set? :P

Whats the benefit of that MOSFET Level shifter?

I just ordered the old version of this product and it is literally being shipped to my house today. What are the chances that I got this version and you guys gave me an early Christmas surprise?