- 1 emonTx SMT
- 1.1 Tech Spec
- 1.2 Powering the emonTx
- 1.3 CT Energy Monitoring
- 1.4 Reading Directly from Utility Meters
- 1.5 Temperature Monitoring
- 1.6 emonTx SMT Prototype V0.6 rev 1 Testing
- 1.7 Connectivity
- 1.8 Open-Source Design
Powering the emonTx
Power Supply Limits
The AC-DC power supply circuit has been designed to supply about 20mA @ 3.3V, this is equivalent to the basic setup minis the LED's. If more current is drawn the AC voltage sample will be effected. Use of LED's should be limited to quick flashes one LED at a time when powering from AC-AC adapter. The on-board AC-DC half wave rectifier circuit has an absolute max supply current of 45mA @ 3.3V
Approximate Max power consumption of various emonTx Setups:
Basic Setup Max
- ATmega: 7.5mA
- RFM12B: 14mA
- Op-amps + switches: 1mA
- 4 x LED's: 40mA
Advanced Temperature setup
- Basic Setup: 63mA
- 8 x DS18B20: 18mA - although temp sensor are powered from 5V line so not drawing from 3.3V MCP1702
Advanced RF Setup + Advanced Temperature
- Xbee: 50mA / RN-XV Wifi:38mA /XRF:36mA
- Advanced Temperature setup: 80mA
Ultimate setup: as above but plus Wiznet Ethernet (120mA) = Grand Total: 250mA
As it happens this is the maximum current output of the MCP1702 voltage regulator!
Note: RF module power consumption was when they are Tx'in, this won't be happening all the time.
CT Energy Monitoring
Current Only (Apparent Power)
Voltage and Current (Real Power)
Reading Directly from Utility Meters
The emonTx has inputs to connect multiple DS18B20 one-wire digital temperature sensors. By default these sensor are powered from the 5V line (supplied from the USB) if powering the board from the 3xAAA battery holder the 3V and 5V power rails should be connected together to enable the sensors to be powered from 3.3V. This can easily by done by jumpering the 5V and 3.3V on the JeePort.
Caution: This jumper should be removed before a usb connection is plugged into the board. No voltage greater than 5.5V should be connected to the Aux input when DS18B20 temperature sensors are connected.
emonTx SMT Prototype V0.6 rev 1 Testing
Questions to Answer:
- Can a 0603 resistor supply enough current to the LED's 1/16W=62.5mW = 18.9mA MAX @ 3.3V. Give a 1.8 Vf LED 10mA with a 160R resistor 16mA through Resistor = safe but will LED be bright enough?
- Simulations show that if the emonTxSMT draws 20mA @ 3.3V then the power spikes through R5 and D1 will be about 1.5Wp at max mains voltage (16.76Vp) or 1.35Wp at typical mains voltage (15.5Vp).
The V0.6 rev1 prototype has got pads for a 1206 resistor & diode R23 and D1 which can do up to 1/4W at a push, mostly 1/8W. Standard SMT resistors go up to 1W (2512)
Changes to make.
- The AC power circuit needs also to be fused to match peak rating of components - 140mA holding, 300mA tripping polyfuse in-line with D1 and R5. Farnel: 1800745 (random case size?) or 1345923 SMT 1812.
Working with I^=350mA the resistor will need to be able to dissipate 6W peak 4.2 RMS. Should resistors be rated for the peak? 18x7.5mm for thru-hole 7W resistor Farnell: 1109319 56R 5%. Does this resistor need to be 1% of will 5% be ok? Farnell don't stock 1% 7W 56R, could go for 5W 1% 56R
- The rectifier diode and D1 and current limiting resistor R23 need to be swapped round?
- Increase PTC fuse on micro USB to 1206, their half the price for same 500mA rating. 500mA tripping current.