Details, datasheet, quote on part number: SWR200C
PartSWR200C
CategoryPower Management => Voltage References => Precision
DescriptionOutput (Vrms) = 7.071 ;; Initial Error (%) = 0.05 ;; Temp Error (ppm/oC) = 2.0, 3.0 ;; Distortion (%THD) = 0.1 ;; Package = DIP14 ;; Feature = High Rel
CompanyThaler Corp.
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Features, Applications

FEATURES

VERY HIGH ACCURACY: 7.071 Vrms 0.05% EXTREMELY LOW DRIFT: 3 ppm/C to +125C) EXCELLENT STABILITY: 10 ppm/1000 Hrs. Typ. LOW DISTORTION: 0.1% THD = 3300 Hz HERMETIC 14-PIN CERAMIC DIP MILITARY PROCESSING OPTION

APPLICATIONS

TRANSDUCER EXCITATION HIGH RESOLUTION SERVO SYSTEMS HIGH PRECISION TEST and MEASUREMENT INSTRUMENTS AC VOLTAGE STANDARD LVDT OR RVDT REFERENCE MULTIPLYING D/A REFERENCE

DESCRIPTION

is a Precision Sine Wave Reference providing an ultra stable sine wave output at 0.05% initial accuracy and temperature coefficient as low as 3 ppm/C over the full military temperature range. The extreme accuracy is made possible by a chopper-based AGC circuit. The temperature characteristic of the chopper circuit compensates the typical nonlinearity of the internal DC zener reference, resulting in a nearly linear amplitude-temperature characteristic. Frequency of the SWR200 is programmable with two external capacitors. The SWR200 is available a 14-pin bottom braze package. They are hermetically sealed and "M" versions are screened for high reliability and quality. SWR200 is well suited for any application requiring a stable sine wave source. The SWR200 can be used as a reference source in precision sensing systems based on LVDT or RVDT position sensors. A programmable AC reference can be constructed using the as a reference for a high accuracy multiplying Digital to Analog Converter.

Type Output Temperature (Typ.) Operating Range to +85C Package DIP

ABSOLUTE MAXIMUM RATINGS Power Supply 15 22 Operating Temperature -25 85 Storage Temperature -65 150 Short Circuit Protection Continuous OUTPUT VOLTAGE OUTPUT VOLTAGE ERRORS Initial Error Warmup Drift DC Offset DC Offset Over Temp. Tmin - Tmax Long-Term Stability OUTPUT CURRENT Range REGULATION Line Load POWER SUPPLY CURRENTS +PS -PS DISTORTION FREQUENCY

NOTES: *Same as C Models. 1.Using the box method, the specified value is the maximum deviation from the output voltage at 25C over the specified operating temperature range. 2.The specified values are unloaded.

8 is internally connected to Pin 7 and can be used as Ref. GND. 4. The frequency range can be extended to any desired lower value by using 2 external AGC capacitors (see AN-3). 5.The increase in distrotion at lower frequencies can be eliminated by using external AGC capacitors (see AN-3).

VOUT vs. TEMPERATURE VOUT vs. TEMPERATURE % FREQ. vs. TEMP. % FREQ. vs. TEMP.
CASE TEMP. RISE ABOVE AMBIENT vs. OUTPUT CURRENT
JUNCTION TEMP. RISE ABOVE CASE TEMP. vs OUTPUT CURRENT

 

Related products with the same datasheet
SWR200L
SWR200M
Some Part number from the same manufacture Thaler Corp.
SWR200L Output (Vrms) = 7.071 ;; Initial Error (%) = 0.05 ;; Temp Error (ppm/oC) = 2.0, 3.0 ;; Distortion (%THD) = 0.1 ;; Package = DIP14 ;; Feature = High Rel
VRE100 Output (V) = +10, -10, ±10 ;; Initial Error (mV) = 0.5, 0.8, 1.0, 1.5 ;; Temp Error (ppm/oC) = 0.3, 0.5 ;; Noise (µVpp) = 6 ;; Package = DIP14 ;; Feature = High Rel
VRE100/101/102
VRE100C Output (V) = +10, -10, ±10 ;; Initial Error (mV) = 0.5, 0.8, 1.0, 1.5 ;; Temp Error (ppm/oC) = 0.3, 0.5 ;; Noise (µVpp) = 6 ;; Package = DIP14 ;; Feature = High Rel
VRE100Series Precision Reference Supplies
VRE101 Output (V) = +10, -10, ±10 ;; Initial Error (mV) = 0.5, 0.8, 1.0, 1.5 ;; Temp Error (ppm/oC) = 0.3, 0.5 ;; Noise (µVpp) = 6 ;; Package = DIP14 ;; Feature = High Rel
VRE101Series Precision Reference Supplies
VRE102 Output (V) = +10, -10, ±10 ;; Initial Error (mV) = 0.5, 0.8, 1.0, 1.5 ;; Temp Error (ppm/oC) = 0.3, 0.5 ;; Noise (µVpp) = 6 ;; Package = DIP14 ;; Feature = High Rel
VRE102Series Precision Reference Supplies
VRE104 Output (V) = +4.5 ;; Initial Error (mV) = 0.4, 0.8 ;; Temp Error (ppm/oC) = 0.4, 0.8 ;; Noise (µVpp) = 3 ;; Package = DIP14 ;; Feature = Crystal ADCs
VRE104Series Precision Reference Supplies
VRE105 Output (V) = +5, ±5 ;; Initial Error (mV) = 0.4, 0.8 ;; Temp Error (ppm/oC) = 0.4, 0.8 ;; Noise (µVpp) = 3 ;; Package = DIP14 ;; Feature = High Rel
VRE105/107
VRE105C Output (V) = +5, ±5 ;; Initial Error (mV) = 0.4, 0.8 ;; Temp Error (ppm/oC) = 0.4, 0.8 ;; Noise (µVpp) = 3 ;; Package = DIP14 ;; Feature = High Rel
VRE110 Output (V) = +2.5, -2.5, ±2.5 ;; Initial Error (mV) = 0.2, 0.3 ;; Temp Error (ppm/oC) = 0.4, 0.8 ;; Noise (µVpp) = 1.5 ;; Package = DIP14 ;; Feature = Low Output V
VRE110/111/112
VRE110C Output (V) = +2.5, -2.5, ±2.5 ;; Initial Error (mV) = 0.2, 0.3 ;; Temp Error (ppm/oC) = 0.4, 0.8 ;; Noise (µVpp) = 1.5 ;; Package = DIP14 ;; Feature = Low Output V
VRE110Series Precision Reference Supplies
VRE111 Output (V) = +2.5, -2.5, ±2.5 ;; Initial Error (mV) = 0.2, 0.3 ;; Temp Error (ppm/oC) = 0.4, 0.8 ;; Noise (µVpp) = 1.5 ;; Package = DIP14 ;; Feature = Low Output V
VRE111Series Precision Reference Supplies
VRE112 Output (V) = +2.5, -2.5, ±2.5 ;; Initial Error (mV) = 0.2, 0.3 ;; Temp Error (ppm/oC) = 0.4, 0.8 ;; Noise (µVpp) = 1.5 ;; Package = DIP14 ;; Feature = Low Output V
 
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