a FEATURES Internal Isolated Loop Supply Drives 1000 Load Pin Programmable Inputs: 0 V to +5 V or 0 V to +10 V Pin Programmable Outputs: 4 to 20 mA or 0 to 20 mA High CMV Isolation: 1500 V RMS Normal-Mode Output Protection: 240 V RMS High Accuracy Low Offset Tempco: 300 nA/C Low Gain Tempco: 50 ppm/C Low Nonlinearity: 0.02% High CMR: 90 dB min Small Package: 1.0" 2.10" 0.35" Meets IEEE STD 472: CMV Transient Protection (SWC) APPLICATIONS Multichannel Process Control D/A Converter--Current Loop Interface Analog Transmitters and Controllers Remote Data Acquisition Systems GENERAL DESCRIPTION The 1B22 is an isolated voltage-to-current converter that incorporates transformer isolation to achieve high performance and automated surface mount manufacturing for low cost and increased reliability. Designed for industrial applications, it is especially suited for harsh environments with extremely high common-mode interference. With programmable inputs and outputs, the 1B22 provides an unbeatable combination of versatility and performance in a compact plastic package. Functionally, the V/I converter consists of four basic sections: input conditioning, modulator/demodulator, isolated loop supply and current source (Figure 1). The 1B22 is pin programmable for 0 V to +5 V or 0 V to +10 V inputs and 0 to 20 mA or 4 to 20 mA outputs using an internal resistor network. It can also be set by an external resistor to accept 0 V to +1 V to 0 V to +10 V inputs. Transformer coupling provides 1500 V rms galvanic isolation between the inputs and the current loop. Nonlinearity is an excellent 0.05% max. Programmable, Isolated Voltage-to-Current Converter 1B22 FUNCTIONAL BLOCK DIAGRAM IN1 IN2 4mA OFFSET S. NODE 1B22 RESISTOR NETWORK REF OUT HI SIGNAL ISOLATION MODULATOR OUT LO DEMODULATOR PROT SYNC POWER ISOLATION +15V -15V OSCILLATOR RECTIFIER/ LOOP SUPPLY A. COM P. COM VLOOP DESIGN FEATURES AND USER BENEFITS Isolated Loop Power: Internal loop supply completely isolates the loop from the input terminals (1500 V rms) and provides the capability to drive 0 to 1000 loads. This eliminates the need for an external dc/dc converter. Ease of Use: The 1B22 offers complete isolated voltage-tocurrent conversion with minimum external parts required to get a conditioned current signal. No external buffers or drivers are required. High CMV Isolation: The 1B22 features high input to output galvanic isolation to eliminate ground loops and offer protection against damage from transients and fault voltages. The isolation barrier will withstand continuous CMV of 1500 V rms and meets the IEEE Standard for Common-Mode Voltage Transient Protection (STD 472-SWC). Small Size: The 1B22 package size (1.0" x 2.1" DIP) makes it an excellent choice in multichannel systems for maximum channel density. The 0.35" height also facilitates applications with limited board clearance. Loop power is generated internally through a dc/dc converter and is also isolated from the input side (1500 V rms). Loop compliance voltage is dependent on the voltage supplied to the 1B22, and with VLOOP = 28 V, it is sufficient to drive a 1000 load. The 1B22 is fully specified over -25C to +85C and operates over the industrial (-40C to +85C) temperature range. REV. B Information furnished by Analog Devices is believed to be accurate and reliable. However, no responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other rights of third parties which may result from its use. No license is granted by implication or otherwise under any patent or patent rights of Analog Devices. One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A. Tel: 781/329-4700 World Wide Web Site: http://www.analog.com Fax: 781/326-8703 (c) Analog Devices, Inc., 2000 1B22-SPECIFICATIONS (typical @ +25C and V = 15 V, V S Model OUTLINE DIMENSIONS 50 k 25 k OUTPUT SPECIFICATIONS Current Output Range, User Selectable Load Compliance Range, VLOOP = +15 V Load Compliance Range, VLOOP = +28 V Maximum Output Current @ Input Overload Output Noise, 100 Hz Bandwidth 4 to 20 mA, 0 to 20 mA 8 V min 20 V min 30 mA 300 nA p-p NONLINEARITY (% of Span) 0.02% ( 0.05% max) ISOLATION CMV, Input to Output Continuous CMR, @ 60 Hz Normal-Mode Output Protection CMV Transient Protection 1500 V rms max 90 dB min 240 V rms Continuous IEEE-STD 472 (SWC) DYNAMIC RESPONSE Settling Time to 0.1% of FS for 10 V Step Small Signal Bandwidth POWER SUPPLY Bipolar Input Supplies Operating Voltage Quiescent Current Power Supply Rejection Loop Supply Operating Voltage Operating Current, at Full-Scale Output Loop Supply Rejection = +24 V, unless otherwise noted) 1B22AN INPUT SPECIFICATIONS Factory Calibrated, User Selectable Input Impedance 0 V to +10 V Input Range 0 V to +5 V Input Range ACCURACY Warm-Up Time to Rated Performance Total Output Error @ +25C Offset (VIN = 0 V) Span (VIN = +10 V) vs. Temperature (-25C to +85C) Offset Span LOOP Dimensions shown in inches and (mm). 0 V to +5 V, 0 V to +10 V 5 min 60 A 0.7% Full Scale 300 nA/C 50 ppm/C AC1225 MATING SOCKET 9 ms 400 Hz 15 V 5% 7.5 mA 0.01%/V +14 V to +30 V 25 mA 0.005%/V ENVIRONMENTAL Temperature Range Rated Performance Operating Storage Relative Humidity, Noncondensing -25C to +85C -40C to +85C -40C to +85C 0 to 95% @ 60C CASE SIZE 1.0" x 2.1" x 0.35" Specifications subject to change without notice. -2- PIN DESIGNATIONS Pin Function 11 16 17 18 19 20 21 22 23 24 25 38 OUT HI IN2 IN1 S. NODE 4 mA OFFSET +15 V ANA COM -15 V SYNC VLOOP POWER COM OUT LO REV. B 1B22 INSIDE THE 1B22 The 1B22 produces an isolated 4 to 20 mA or 0 to 20 mA output current which is proportional to the input voltage and independent of the output load resistance (Figure 1). The input stage is configured as an inverting amplifier with a resistor network to provide pin-strappable input ranges of 0 V to +5 V and 0 V to +10 V and output ranges of 0 to 20 mA and 4 to 20 mA. The conditioned signal is modulated to generate a square wave that drives transformer T1. The peak-to-peak amplitude of the signal is proportional to VIN. An internal, high stability reference with a nominal output voltage of +6.4 V is used to develop a 4 mA offset for the 4 to 20 mA current loop output. Figure 2. Basic Interconnections Figure 1. 1B22 Functional Block Diagram After passing through signal transformer T1, the amplitude modulated signal is demodulated and filtered by a single pole filter. This filtered output is the control signal for the voltageto-current converter stage. Timing information for the demodulator is derived from the power transformer T2. The 1B22 outputs are protected from accidental shorts to ac line voltages up to 240 V rms. Combined with 1500 V input to output isolation, the 1B22 provides unbeatable protection against transients, wiring errors and current loop short circuits to power lines. Figure 3. Internal Resistor Network Optional Trim Adjustments: Figure 4 is an example of using potentiometers for trimming gain and offset for a 0 V to +10 V input and 4 to 20 mA output. The network for offset adjustment keeps the resistors relatively small to minimize noise effects while giving a sensitivity of 1% of span. The value of R1 should be 5 M for the 0 V to +10 V range (for 0 V to +5 V configurations, a 1.2 M resistor should be used). For more adjustment range, resistors smaller than 274 k can be used. The dc-dc converter consists of a power driver, power transformer T2, a full wave rectifier and a filter. The dc-dc converter provides the power for the output circuitry as well as the isolated compliance voltage for the loop. This voltage is proportional to VLOOP on the input side. The 1B22 requires 15 V supplies to power the input side circuitry and a +14 V to +30 V supply for the dc-dc converter. 1k IN2 R1 4mA OFF 50k RESISTOR NETWORK 1B22 OUT HI REF OUT LO PROT 20k +15V S. NODE 274k 50k USING THE 1B22 SYNC -15V 1k +15V COM Basic Interconnections: The 1B22 may be applied to achieve rated performance as shown in Figure 2. For 0 V to 10 V signals either IN1 or IN2 can be used for input; for 0 V to +5 V signals jumper IN1 to IN2. Similarly, for 4 to 20 mA operation the 4 mA OFFSET node should be jumpered to the S. NODE, while for 0 to 20 mA it should be tied to COM. Figure 3 shows the functional diagram of the resistor network used in the 1B22. POWER DRIVER -15V RECTIFIER/ LOOP SUPPLY VLOOP P. COM Figure 4. Optional Offset and Span Adjustment For applications where a separate loop supply is not available, the 15 V supplies can be used by connecting +15 V to VLOOP (Pin 24) and COM to P.COM (Pin 25). For additional compliance voltage, P.COM can be connected to -15 V to drive higher loads. REV. B IN1 VIN -3- 1B22 Synchronizing Multiple 1B22s: In applications where multiple 1B22s are used in close proximity, radiated individual oscillator frequencies may cause "beat frequency" related output errors. These errors can be eliminated by driving the SYNC pins of all the units with a 40 kHz clock circuit at 50% duty cycle (Figure 5). The SYNC input typically has an input impedance of 150 k180 pF. Isolated D/A Converter: The 1B22 offers total ground isolation and protection from high voltage transients in interfacing D/A converters to standard 4 to 20 mA current loops. The D/A converter, such as the Analog Devices' 12-bit AD7245 DACPORT(R), should be connected for operation on the unipolar 0 V to +10 V output range. This is shown in Figure 7. Figure 5. Multiple 1B22s' Synchronization Figure 7. D/A Converter-Isolated 4-20 mA Interface Loop Supply Requirements: The 1B22 design allows flexible loop supply options. The loop supply voltage required for any value of load resistance can be calculated from the following equation: Pressure Transmitter: In Figure 8, the 1B22 is used in a pressure transmitter application to provide complete inputoutput isolation and avoid signal errors due to ground loop currents. The process pressure is monitored with a strain gage type pressure transducer interfaced by the Analog Devices' 1B32 transducer signal conditioner. The high level voltage output of the 1B32 is converted to the isolated 4 to 20 mA current for transmission to a remote recorder or indicator. VLOOP = 2RL + 780 106 This value allows for approximately 10% overrange capability. The graph in Figure 6 shows the relationship between supply voltage and load resistance. C1193a-2.2-3/00 (rev. B) APPLICATIONS PRINTED IN U.S.A. Figure 8. Isolated Pressure Transmitter Figure 6. Loop Supply vs. Load DACPORT is a registered trademark of Analog Devices, Inc. -4- REV. B