QUICK START GUIDE FOR DEMONSTRATION CIRCUIT 745 16-BIT DIFFERENTIAL INPUT DELTA SIGMA ADC LTC2433-1 DESCRIPTION Demonstration circuit 745 features the LTC2433-1, a 16-bit high performance analog-to-digital converter (ADC). The LTC2433-1 features 0.12 LSB linearity, 0.16 LSB full-scale accuracy, 5V offset, and 1.45V RMS noise. The inputs and reference are fully differential, with input common mode rejection of 140 dB. The LTC2433-1 is available in a 10 pin MSOP package and has an easy to use SPI interface. analog signals while using the DC590 USB Serial Controller board and supplied software to measure performance. The exposed ground planes allow proper grounding to prototype circuitry. After evaluating with Linear Technology's software, the digital signals can be connected to the end application's processor / controller for development of the serial interface. DC745 is a member of Linear Technology`s QuickEvalTM family of demonstration boards. It is designed to allow easy evaluation of the LTC2433-1 and may be connected directly to the target application's Design files for this circuit board are available. Call the LTC factory. 1 QUICK START GUIDE FOR DEMONSTRATION CIRCUIT 745 16-BIT DIFFERENTIAL INPUT DELTA SIGMA ADC QUICK START PROCEDURE Connect DC745 to a DC590 USB Serial Controller using the supplied 14 conductor ribbon cable. Connect DC590 to a host PC with a standard USB A/B cable. Run the evaluation software supplied with DC590 or downloaded from http://www.linear.com/software. The correct program will be loaded automatically. Click the COLLECT button to start reading the input voltage. Details on software features are documented in the control panel's help menu. Tools are available for logging data, changing reference voltage, changing the number of points in the strip chart and histogram, and changing the number of points averaged for the DVM display. 2 QUICK START GUIDE FOR DEMONSTRATION CIRCUIT 745 16-BIT DIFFERENTIAL INPUT DELTA SIGMA ADC HARDWARE SET-UP JUMPERS JP1 - Select the source for REF+, either external or 5.00 volts from the onboard LT1236 reference (default.) JP2 - Select the source for REF-, either external or Ground (0 volts, default.) JP3 - Trigger mode, either normal (default) or externally triggered. JP4 - Notch frequency. Connect to 60Hz for normal operation (Fo = GND.) The LTC2433-1 is trimmed to reject both 50Hz and 60Hz by at least 87dB when Fo is grounded. Remove this jumper when supplying an external clock to the Fo turret. JP5 - Trigger input signal. Pin 1 is a 5 volt logic signal, pin 2 is ground. When triggered mode is selected on JP3, a rising edge starts a new conversion. Note that a conversion in progress cannot be stopped, so this signal can only be used to slow down the rate at which samples are read from the LTC2433-1. When Fo is grounded, the maximum trigger frequency is 5Hz. CONNECTION TO DC590 SERIAL CONTROLLER J2 is the power and digital interface connector. Connect to DC590 serial controller with supplied 14 conductor ribbon cable. An external conversion clock may be applied to the Fo turret to modify the frequency rejection charac- teristics or data output rate of the LTC2433-1. Be sure to remove JP4 before applying an external clock. This should be a square wave with a low level equal to ground and a high level equal to Vcc. While up to a 2MHz clock can be used, performance may be compromised. Refer to the LTC2433-1 data sheet. ANALOG CONNECTIONS Analog signal connections are made via the row of turret posts along the edge of the board. Also, when connecting the board to an existing circuit, the exposed ground planes along the edges of the board may be used to form a solid connection between grounds. GND - Ground turrets are connected directly to the internal ground planes. VCC - This is the supply for the ADC. Do not draw any power from this point. REF+, REF- - These are connected to the LTC24331 REF+ and REF- pins. If the onboard reference is being used, the reference voltage may be monitored from this point. An external reference may be connected to these terminals if JP1 and JP2 are configured for external reference. IN+, IN- - These are the differential inputs to the LTC2433-1. 3 QUICK START GUIDE FOR DEMONSTRATION CIRCUIT 745 16-BIT DIFFERENTIAL INPUT DELTA SIGMA ADC EXPERIMENTS INPUT NOISE One of the characteristics of the LTC2433-1 is that the 1.45V input noise floor is far below the quantization level of 76uV when a 5-volt reference is used. This means that the output will be stable if the input noise level is also below 76uV. In this sense, the LTC2433-1 is a true 16 effective bit part, whereas many 16-bit SAR converters have several LSBs of noise. Solder a short wire from the IN- turret post to the IN+ turret post. Noise should be below the quantization level of the LTC2433-1. This will result in a noise reading of zero on the control software. Applying an external reference of 100mV results in a 1.52V LSB, and the noise reading will be approximately 250ppm of 100mV, or 2.5V. This is slightly higher than the 1.45V input thermal because quantization noise is also a factor. COMMON MODE REJECTION Tie the two inputs (still connected together) to ground through a short wire and note the indicated voltage. Tie the inputs to REF+; the difference should be less than 1LSB due to the 130 dB CMRR of the LTC2433-1. BIPOLAR SYMMETRY To demonstrate the symmetry of the ADCs transfer function, connect a stable, low noise, floating voltage source (with a voltage less than Vref/2) from IN+ to IN- and note the indicated voltage. Reverse the polarity; the indicated voltage will typically be within one LSB of the first reading multiplied by -1. One convenient voltage source for this experiment is a single alkaline battery. While a battery has fairly low noise, it is sensitive to temperature drift. It is best to use a large (D-size) battery that is insulated from air currents. A better source is a battery powered series reference such as the LT1790. This part is available with output voltages of 1.25V, 2.048V, 2.5V, 3V, 3.3V, 4.096V and 5V. INPUT NORMAL MODE REJECTION The LTC2433-1's SINC4 digital filter is trimmed to strongly reject 50 or 60Hz line noise when operated with the internal conversion clock. To measure input normal mode rejection, connect IN- to a 2.5 volt source such as an LT1790-2.5 reference or a power supply. Apply a 10Hz, 2V peak-to-peak sine wave to IN+ through a 1uF capacitor. No DC bias is required because the 2-3M input impedance of the LTC2433-1 tends to self-bias the input to midreference (see datasheet applications information for details.) Start taking data. The input noise will be quite large, and the graph of output vs. time should show large variations. Next, slowly increase the frequency to 60Hz. The noise should be almost undetectable in the graph. Note that the indicated noise in ppm may still be above that of the datasheet specification because the inputs are not connected to a DC source. 4 QUICK START GUIDE FOR DEMONSTRATION CIRCUIT 745 16-BIT DIFFERENTIAL INPUT DELTA SIGMA ADC 5