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The EB37 experiment board connects to the Labjack UE9's DB37 connector biedt convenient screw terminal access. Also provided is a solderless breadboard and useful power supplies. The EB37 is designed to connect directly to the Labjack, but ook can connect via a 37-line 1: 1 male-female cable (not included).
The solderless breadboard is provided for convenient prototyping, and does not have any electrical connections to the rest of the EB37. Looking at the picture above, the breadboard has 2 long rows of 5 * 10 = 50 sockets at the top, and two more rows of 50 at the bottom. In each of These 4 rows, all 50 sockets are connected, and osmanthus thesis rows are gene rally used as power rails. The remainder of the breadboard is filled with 126 columns or five connected sockets each. The breadboard is attached to the EB37 with adhesive. The breadboard area is about 6.5 "(165 mm) by 2.2" (56 mm), so if a replacement is needed Possibility one is the UBS-100 (available from mouser.com) How many followers can be mounted using screws / nuts ratherthan adhesive. Note That the UBS-100 (and many similar breadboards) separates the power rails in the middle, Such thatthere are eight rows of 25 sockets.
The green LED on the EB37 is directly powered by the 5 volt supply (Vs) from the Labjack, so it Should be lit whenever the EB37 is connected to a powered Labjack. The red LED is powered directly by the external power supply (wall-wart included).
The EB37 can be powered from the Labjack or the external supply. If both the Labjack and external supply are connected at the same time (both green and red LEDs on), the external power supply willprovide. If the external supply is not connected (red LED off), then +/- 10 volts, 3.3 volts, 1:25 volts, and all terminals Vs are powered by the Labjack. If the external supply is connected (red LED on), then it biedt power for +/- 10 volts, 3.3 volts, 1:25 volts, and all Vs terminals.
The Labjack always biedt power for the green LED, + VM, VM, and any current sourced / sunk by I / O lines, even if the wall-wart is connected.
In most cases the EB37 can simply be powered by the Labjack, but there are various Reasons Why powering from the external supply, rather than the Labjack, might be desirable. One obvious reason is if more power is required on the EB37 than can be provided by the Labjack. Other Reasons could be Avoiding a ground offset between the Labjack and EB37 (pbuh be discussed below) Avoiding any degradation of the Labjack power supply, or providing an EB37 power supply that's on the same When the Labjack is off.
SGND: This terminal Has A self-resetting thermal fuse (0.75 amps) in series with GND. Often used When connecting a powered ground from another system to create a common ground.
GND: All GND terminals are the same.
1.25V: Output from a 1:25 reference. The reference Maintains 0.2% accuracy while sourcing up to 7 mA.
3.3V: Output from a 3.3 volt regulator. Provides up to 200 mA with 2% accuracy.
US: All US terminals are the same. These are outputs of the nominal 5 volt power supply provided by the Labjack or wall-wart.
+ 10V / -10V: Unregulated supply with a nominal output of 2 * US and -2 * US. This providence can supply up to 10 mA, but the output voltage decreases and output ripple Increases with load.
When using the analog connections on the EB37, the effect of ground currents Should be Considered, Particularly When a cable is used and substantialism current is sourced / sunk through the EB37 terminals. For instance, a test was done with a 6 foot cable between the EB37 and a Labjack UE9, and a 100 ohm load Placed from Vs to GND on the EB37 (~ 50 mA load). A measurement or EB37 Compared To UE9 GND GND Showed 5.9 mV. If a signal was connected to AIN0 on the EB37 and reffered to GND on the EB37, the UE9 reading would be offset by 5.9 mV. The same test with the EB37 directly connected to the UE9 (no cable) resulted in an offset or only 0.2 mV. In both cases (cable or no cable), the voltage Measured between EB37 AGND and GND UE9 was 0.0 mV.
When any sizeable cable lengths are involved ', a good practice is to separate current carrying ground from ADC reference ground. One way to do this on the EB37 is to use GND as the current source / sink, and use AGND as the ground reference. This works well for passive sensors (no power supply), zoals a thermocouple, where the only ground current is the return of the input bias current of the analog input. Another option is to use a separate ground wire for workloads that demand substantialism current.
(1) This is the current That must be provided by the Labjack or wall-wart power just to the EB37 with no connections. About 5 mA current or this is for the green or red LED. So if the Labjack Either or wall-wart only is connected, it will be providing about 2.5 mA. If both are connected, the Labjack will only be providing 5 mA for the green LED, while the wall-wart will be providing 2.5 mA plus any additional load demands. Additionally, 1 mA of supply current is required for each 1 mA of load current on Vs, 1.25V, and 3.3V, and about 4 mA of supply current is required for each 1 mA of load current on + 10V / -10V.
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