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PC-SOIC/DIP24-01 Ironwood Electronics SOIC to DIP Package Converters; Top Package Code: SOJ24A_SOJ24B_SOJ24C_SOJ24D; Bottom Package Code: 0.3; Top Pitch (mm): 1.27; Bottom Pitch (mm): 2.54; Top Pin Count: 24; Bottom Pin Count: 24; Top Array Size: N/A; Bottom Array Size: N/A; Top Interface: SOIC Land Pattern; Bottom Interface: Thru Hole Pins; Inside Land Dim. - Ouside land dim. (in.): 0.167 - 0.367; Adapter Size Length X Width (in.): 1.2 x 0.4; Part Description: SOIC to DIP Converter; ri Buy
PC-SOIC/DIP8-01 Ironwood Electronics SOIC to DIP Package Converters; Top Package Code: SO8A_S08B_SO8E; Bottom Package Code: 0.3; Top Pitch (mm): 1.27; Bottom Pitch (mm): 2.54; Top Pin Count: 8; Bottom Pin Count: 8; Top Array Size: N/A; Bottom Array Size: N/A; Top Interface: SOIC Land Pattern; Bottom Interface: Thru Hole Pins; Inside Land Dim. - Ouside land dim. (in.): 0.15 - 0.375; Adapter Size Length X Width (in.): 0.4 x 0.4; Part Description: SOIC to DIP Converter; ri Buy
PC-SOIC/DIP20-04 Ironwood Electronics SOIC to DIP Package Converters; Top Package Code: SO20A_SO20B_SO20D; Bottom Package Code: 0.3; Top Pitch (mm): 1.27; Bottom Pitch (mm): 2.54; Top Pin Count: 20; Bottom Pin Count: 20; Top Array Size: N/A; Bottom Array Size: N/A; Top Interface: SOIC Land Pattern; Bottom Interface: Thru Hole Pins; Inside Land Dim. - Ouside land dim. (in.): 0.275 - 0.475; Adapter Size Length X Width (in.): 1 x 0.4; Part Description: SOIC to DIP Converter; ri Buy

measure ringing in dac

Catalog Datasheet Results Type PDF Document Tags
Abstract: variable RDAC resistor shown in Figure 1. The input impedance to the DAC seen at the VREF pin is fixed , In a multiplying DAC, current is steered to either the virtual ground connected to the IOUT1 node or , some external resistors as shown in Figure 3. One of the key advantages in using an IOUT DAC in , Multiplying DAC, VOUT = 0 V to VREF STABILITY ISSUES An important component to take into account in , capacitance of the DAC introduces a pole into the open-loop response that can cause ringing or instability ... Original
datasheet

8 pages,
150.89 Kb

2R LFCSP-8 800H AD5444 AD5450 AD5451 AD5452 AD5453 AD5543 AD55xx AD8038 AD8058 AD8066 AN-1094 AN-1094 abstract
datasheet frame
Abstract: selected DAC is in the write mode. The input data latches of the selected DAC are transparent and its , values corresponding to the data in their respective latches. DAC A/ DAC B es WR DAC A DAC B L L L WRITE , , in this case DAC A. A similar équivalent circuit can be drawn for DAC B. Note that AGND (Pin 1) is , RINGING OR OSCILLATION Dual DAC Unipolor Operation (2 Quandrant Multiplication) DAC Latch Contents MSB LSB , 10000000 IN DAC A LATCH ADJUST R3 FOR VOUTA = 0V WITH CODE 10000000 IN DAC B LATCH 2' RÎTR1H0NG AND ... OCR Scan
datasheet

6 pages,
569.84 Kb

Z80 CPU DIMENSIONS "hybrid systems" DAC 8080 datasheet abstract
datasheet frame
Abstract: is a measure of the output error between an ideal DAC and the actual device output. For the HS 7528 , other DAC, expressed as a ratio in dB. Digital Crosstalk. The glitch energy transferred to the output , Mode. When CS and WR are both low the selected DAC is in the write mode. The input data latches of the , select tcs tCH IAS dac a/dac b tAH tWR WRITE \ S / ! tDS tDH DATA IN , approximate equivalent circuit for one of the HS 7528's D/A converters, in this case DAC A. A similar ... OCR Scan
datasheet

6 pages,
569.84 Kb

100S 1N914 20-PIN 7528T 8085 microprocessor pin configuration measurement of voltage using 8085 8085 timing diagram 8085 microprocessor cpu 6800 datasheet abstract
datasheet frame
Abstract: monolithic quad 8-Bit digital-to-analog converter produced in a 28-pin DIP, featuring excellent DAC to DAC , measure of the maximum deviation from a straight line passing through the endpoints of the DAC transfer , : Gain error or full scale error is a measure of the output error between an ideal DAC and the actual , Mode Selection Table. Write Mode _ When DS and R/W are both low, the selected DAC is in the write , data in their respective latches. Read Mode _ When DS is low and R/W is high, the selected DAC is in ... OCR Scan
datasheet

6 pages,
315.64 Kb

7628S 1N914 -7628J Zener C450 datasheet abstract
datasheet frame
Abstract: monolithic quad 8-Bit digital-to-analog converter produced in a 28-pin DIP, featuring excellent DAC to DAC , measure of the maximum deviation from a straight line passing through the endpoints of the DAC transfer , : Gain error or full scale error is a measure of the output error between an ideal DAC and the actual , Write Mode _ When DS and R/W are both low, the selected DAC is in the write mode. The input data , respective latches. Read Mode _ When DS is low and R/W is high, the selected DAC is in the read mode and ... OCR Scan
datasheet

6 pages,
284.84 Kb

1N914 datasheet abstract
datasheet frame
Abstract: FULL-SCALE ERROR Full scale error or gain error is a measure of the output error between an ideal DAC and the , 's reference input which appears at the output of the other DAC, expressed as a ratio in dB. DIGITAL CROSSTALK , loading the DAC register with all l's and adjusting R1 (R3) so that Vouta (Voutb) = ~VIN (4095/4096). In , diagram for bipolar operation is shown in Figure 3. Offset binary coding is used. With the appropriate DAC , Bipolar Operation (Offset Binary Coding) Binary Number in DAC Register MSB LSB Analog Output, Vouta or ... OCR Scan
datasheet

8 pages,
403.3 Kb

z80 microprocessor AD7549AQ AD7549JN AD7549JP AD7549KN AD7549KP MC6809 P-20A processor 8048 74HC AD7549 datasheet abstract
datasheet frame
Abstract: and 3/4 scale. DAC glitches cause significant distortion and high levels create very real problems In , Write Mode _ _ When CS and WRare both low the selected DAC is in the write mode. The Input data , temperature range of Interest 3. HIGH FREQUENCY CONSIDERATIONS: The output capacitance of a CMOS DAC works In , ringing or oscillation. Stabil ity can be restored by adding a phase compensation capaci tor in parallel , value versus grade. 2 Bipolar Operation: Adjust R1 lorVourA = 0 V with code 10000000 IN DAC A LATCH. ... OCR Scan
datasheet

7 pages,
630.15 Kb

CA3180 LCH7444 LCH7444 abstract
datasheet frame
Abstract: system limits of ringing vs. settling time. Step mode is used when M = 1 and the present DAC code is in , determine the resonant frequency, f0, input a target DAC code by modifying the 10 bit C_DAC[9:0] value in , actuator as this will show an incorrect resonant period. In order to start movement of the lens to the DAC , such the ringing control behavior is broken into three separate operational areas in order to provide , laser displacement meter or some other device to measure lens displacement. DAC code www.rohm.com ... Original
datasheet

24 pages,
935.96 Kb

mobile Linear actuator autofocus actuator 130003 transistor BU64241GWZ autofocus IC UCSP30L1 transistor 130003 BU64240GWZ BU64241GWZ abstract
datasheet frame
Abstract: system limits of ringing vs. settling time. Step mode is used when M = 1 and the present DAC code is in , determine the resonant frequency, f0, input a target DAC code by modifying the 10 bit C_DAC[9:0] value in , actuator as this will show an incorrect resonant period. In order to start movement of the lens to the DAC , such the ringing control behavior is broken into three separate operational areas in order to provide , laser displacement meter or some other device to measure lens displacement. DAC code www.rohm.com ... Original
datasheet

24 pages,
935.96 Kb

BU64240GWZ BU64241GWZ BU64240GWZ abstract
datasheet frame
Abstract: system limits of ringing vs. settling time. Step mode is used when M = 1 and the present DAC code is in , determine the resonant frequency, f0, input a target DAC code by modifying the 10 bit C_DAC[9:0] value in , actuator as this will show an incorrect resonant period. In order to start movement of the lens to the DAC , such the ringing control behavior is broken into three separate operational areas in order to provide , laser displacement meter or some other device to measure lens displacement. DAC code www.rohm.com ... Original
datasheet

24 pages,
935.03 Kb

BU64240GWZ BU64241GWZ BU64240GWZ abstract
datasheet frame

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increase or decrease of the analog output of a DAC or the digital output of an ADC in response to a measure of relative power, 10 log (P1/P2), or voltage, 20 log (V1/V2), in terms of the ratio of two office. Transhybrid Loss In a telephone hybrid, the measure of the isolation between the technique for increasing power into speakers. Primarily used in low-voltage applications. common-mode voltage amplification. NOTE: This is measured by determining the ratio of a change in input
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Texas Instruments 08/02/1999 40.72 Kb HTM glossary.htm
DAC is implemented in firm­ware by driving RA3 in accordance with the output of the comparator filter. There is no ringing in stop band. This filter type has some overshoot and ringing in the time there is ringing in the pass band region with this filter, the stop band is void of ringing. The slower than the Butterworth or Chebyshev. And finally, there is no ring­ing in stop band. This filter or ringing. The Inverse Chebyshev filter also has a flat magnitude response in pass-band. The
www.datasheetarchive.com/files/microchip/10/edit/proceed/archive/pcd175/index.htm
Microchip 21/03/2001 46.1 Kb HTM index.htm
that measure and control the analog world. One of the challenges in these types of designs is to used is part of the controller, as well as the volt­age reference. A one-bit DAC is implemented in filter. There is no ringing in stop band. This filter type has some overshoot and ringing in the time there is ringing in the pass band region with this filter, the stop band is void of ringing. The slower than the Butterworth or Chebyshev. And finally, there is no ring­ing in stop band. This filter
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Microchip 05/06/2002 57.71 Kb HTM index-vx2.htm
that measure and control the analog world. One of the challenges in these types of designs is to used is part of the controller, as well as the volt­age reference. A one-bit DAC is implemented in filter. There is no ringing in stop band. This filter type has some overshoot and ringing in the time there is ringing in the pass band region with this filter, the stop band is void of ringing. The slower than the Butterworth or Chebyshev. And finally, there is no ring­ing in stop band. This filter
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Microchip 05/06/2002 57.71 Kb HTM index.htm
CDMA Applications Feb 2001 Rail-to-Rail 14-Bit Dual DAC in a Space Saving 16-Pin SSOP 10-Bit Serial DAC in MS-8 Saves Power and Space Nov 2000 Low Dropout Linear Li-Ion Charge September 2009 - Synchronous Boost Converter with Fault Handling Generates 5V at 500mA in 1cm2 of Board Combines USB On-The-Go and USB Charging in Compact Easy-to-Use Solution March 2009 - How to Choose a Voltage Reference January 2009 - 100V Controller in 3mm - 3mm QFN or MSE Drives
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Linear 17/09/2010 105.35 Kb HTML lt magazine.html
, Active, Ringing. Off-hook pro - grammable threshold-level in each of these conditions. Interface to Vb+ battery is the same positive supply voltage needed for ringing generation. 4.3.3 - RING In this so that the ringing signal al - ways starts and stops with zero phase. In Ring mode the Off Hook ringing state. = 0 COFISLIC is not in ringing state. = 1 COFISLIC is in ringing state. CONV = Sets Timing bit to control the timing of ringing and meterpulses. = 0 COFISLIC is in ringing pause or no
www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/5856.htm
STMicroelectronics 02/04/1999 106.58 Kb HTM 5856.htm
precisely with- out ringing. Initially the system operates in speed control mode. A movement begins when the have in the motor speed due to the DAC. If we call I OM1 the value of the max output current I o : 4031 Date Update: 1/11/95 Pages: 24 The document is available in the encoder in the con- figuration shown schematically in figure 1. This sys- tem is controlled by a servopositioning System that connects directly to Microcomputer Chips. 1/24 The system operates in two modes to
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STMicroelectronics 14/06/1999 45.2 Kb HTM 4031-v2.htm
precisely with- out ringing. Initially the system operates in speed control mode. A movement begins when the have in the motor speed due to the DAC. If we call I OM1 the value of the max output current I o : 4031 Date Update: 1/11/95 Pages: 24 The document is available in the encoder in the con- figuration shown schematically in figure 1. This sys- tem is controlled by a servopositioning System that connects directly to Microcomputer Chips. 1/24 The system operates in two modes to
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STMicroelectronics 02/04/1999 45.24 Kb HTM 4031-v1.htm
ringing. Initially the system operates in speed control mode. A movement begins when the microcomputer have in the motor speed due to the DAC. If we call I OM1 the value of the max output current I use with a DC motor and optical encoder in the con- figuration shown schematically in figure 1. This directly to Microcomputer Chips. 1/24 The system operates in two modes to achieve high speed and the motor speed is zero so there is no tacho feedback and the system operates effectively in open
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STMicroelectronics 25/05/2000 47.07 Kb HTM 4031-v3.htm
target position then stop precisely with- out ringing. Initially the system operates in speed control have in the motor speed due to the DAC. If we call I OM1 the value of the max output current I o encoder in the con- figuration shown schematically in figure 1. This sys- tem is controlled by a operates in two modes to achieve high speed and accuracy : closed loop speed control and closed loop system operates effectively in open loop mode (see figure 2). In this condition a high current peak - up
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STMicroelectronics 20/10/2000 49.36 Kb HTM 4031.htm