The document is a device modeling report for an operational amplifier (opamp), the NJM072D manufactured by New Japan Radio. It includes the component specifications, a description of the spice model, and the results of simulations comparing the model values to the datasheet specifications for parameters such as output voltage swing, input offset voltage, slew rate, input current, gain, and common mode rejection ratio. The simulations show good agreement with errors generally less than 1% compared to the datasheet values.
The document is a device modeling report for an operational amplifier (opamp), the NJM072D manufactured by New Japan Radio. It includes the component specifications, a description of the spice model, and the results of simulations comparing the model values to the datasheet specifications for parameters such as output voltage swing, input offset voltage, slew rate, input current, gain, and common mode rejection ratio. The simulations show good agreement with errors generally less than 1% compared to the datasheet values.
This document summarizes the simulation results of an operational amplifier component (NJM2068M) for key parameters including output voltage swing, input offset voltage, slew rate, input current, open loop voltage gain, and common mode rejection ratio. The simulation results are compared to the datasheet specifications and percent errors are reported to validate the accuracy of the SPICE model.
This document summarizes the simulation results of an operational amplifier component model. It tests parameters like output voltage swing, input offset voltage, slew rate, input current, open loop voltage gain, output short circuit current, and common mode rejection ratio. The simulation results show good agreement with the datasheet specifications, with most values matching within 2% error.
This document summarizes the simulation results of an operational amplifier component (NJM2068M) for key parameters including output voltage swing, input offset voltage, slew rate, input current, open loop voltage gain, and common mode rejection ratio. The simulation results are compared to the datasheet specifications and percent errors are reported to validate the accuracy of the SPICE model.
This document summarizes the simulation results of an operational amplifier component model. It tests parameters like output voltage swing, input offset voltage, slew rate, input current, open loop voltage gain, output short circuit current, and common mode rejection ratio. The simulation results show good agreement with the datasheet specifications, with most values matching within 2% error.
This document summarizes the results of simulations performed on an operational amplifier (opamp), the NJM2734. It includes tables comparing the simulated and specified performance parameters, including output voltage swing, input offset voltage, slew rate, input current, open-loop voltage gain vs. frequency, and common-mode rejection ratio. Plots of the simulation results are provided for each parameter analyzed.
This document provides specifications and simulation results for an operational amplifier component, the NJM2716 manufactured by New Japan Radio. It examines the op amp's output voltage swing, input offset voltage, slew rate, input current, open loop voltage gain versus frequency, and common mode rejection ratio. The summary includes simulation results that closely match the manufacturer's published data sheet specifications.
SPICE MODEL of LM7924 PSpice in SPICE PARK. English Version is http://www.spicepark.net. Japanese Version is http://www.spicepark.com by Bee Technologies.
This document provides a device modeling report for an operational amplifier (opamp) component. It includes specifications for the opamp such as output voltage swing, input offset voltage, slew rate, input current, voltage gain, and common mode rejection ratio. Simulation results are presented and compared to data sheet specifications to evaluate the accuracy of the developed SPICE model.
This document summarizes the results of simulations run to characterize the performance of the NJM12902V operational amplifier made by New Japan Radio. The simulations analyzed key metrics such as output voltage swing, input offset voltage, slew rate, input bias current, open loop gain, output short circuit current, and common mode rejection ratio and found the simulation results matched well with the specifications in the manufacturer's datasheet.
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This document provides an inventory update of 6,747 parts at Spice Park as of April 2024. It lists the part numbers, manufacturers, and quantities of various semiconductor components, including 1,697 Schottky rectifier diodes from 29 different manufacturers. It also includes details on passive components, batteries, mechanical parts, motors, and lamps in the inventory.
The document provides an inventory update from April 2024 of the Spice Park collection which contains 6,747 electronic components. It includes tables listing the types of semiconductor components, passive parts, batteries, mechanical parts, motors, and lamps in the collection along with their manufacturer and quantities. One of the semiconductor components, the general purpose rectifier diode, is broken down into a more detailed table with 116 entries providing part numbers, manufacturers, thermal ratings, and remarks.
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This document provides an inventory list of parts at Spice Park as of March 2024. It contains 3 sections - Semiconductor parts (diodes, transistors, ICs etc.), Passive parts (capacitors, resistors etc.), and Battery parts. For Semiconductor parts, it lists 36 different part types and provides the quantity of each part. It then provides further details of Diode/General Purpose Rectifiers, listing the manufacturer and quantity of 652 individual part numbers.
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The document provides an inventory update from February 2024 of Spice Park, which contains 6,694 total pieces of electronic components and parts. It lists 36 categories of semiconductor devices, 11 categories of passive parts, 10 types of batteries, 5 mechanical parts, DC motors, lamps, and power supplies. It provides the most detailed listing for solar cells, with 1,003 total pieces from 51 manufacturers listed with part numbers.
The document provides an inventory update from February 2024 of Spice Park, which contains 6,694 electronic components. It lists the components by type (e.g. semiconductor), part number, manufacturer, thermal rating, and quantity on hand. For example, it shows that there are 621 general purpose rectifier diodes from manufacturers such as Fairchild, Fuji, Intersil, Rohm, Shindengen, and Toshiba. The detailed four-page section provides further information on the first item, general purpose rectifier diodes, including 152 individual part numbers and specifications.
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My slides at Nordic Testing Days 6.6.2024
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Webinar Recording: https://www.panagenda.com/webinars/hcl-notes-und-domino-lizenzkostenreduzierung-in-der-welt-von-dlau/
DLAU und die Lizenzen nach dem CCB- und CCX-Modell sind für viele in der HCL-Community seit letztem Jahr ein heißes Thema. Als Notes- oder Domino-Kunde haben Sie vielleicht mit unerwartet hohen Benutzerzahlen und Lizenzgebühren zu kämpfen. Sie fragen sich vielleicht, wie diese neue Art der Lizenzierung funktioniert und welchen Nutzen sie Ihnen bringt. Vor allem wollen Sie sicherlich Ihr Budget einhalten und Kosten sparen, wo immer möglich. Das verstehen wir und wir möchten Ihnen dabei helfen!
Wir erklären Ihnen, wie Sie häufige Konfigurationsprobleme lösen können, die dazu führen können, dass mehr Benutzer gezählt werden als nötig, und wie Sie überflüssige oder ungenutzte Konten identifizieren und entfernen können, um Geld zu sparen. Es gibt auch einige Ansätze, die zu unnötigen Ausgaben führen können, z. B. wenn ein Personendokument anstelle eines Mail-Ins für geteilte Mailboxen verwendet wird. Wir zeigen Ihnen solche Fälle und deren Lösungen. Und natürlich erklären wir Ihnen das neue Lizenzmodell.
Nehmen Sie an diesem Webinar teil, bei dem HCL-Ambassador Marc Thomas und Gastredner Franz Walder Ihnen diese neue Welt näherbringen. Es vermittelt Ihnen die Tools und das Know-how, um den Überblick zu bewahren. Sie werden in der Lage sein, Ihre Kosten durch eine optimierte Domino-Konfiguration zu reduzieren und auch in Zukunft gering zu halten.
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- Verstehen des DLAU-Tools und wie man es am besten nutzt
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Guest Speaker Segment with Hannah Barrington: Dive into the world of dynamic real estate marketing with Hannah, the Marketing Manager at Workspace Group. Hear firsthand how their team generates engaging descriptions for thousands of office units by integrating diverse data sources—from PDF floorplans to web pages—using FME transformers, like OpenAIVisionConnector and AnthropicVisionConnector. This use case will show you how GenAI can streamline content creation for marketing across the board.
Ollama Use Case: Learn how Scenario Specialist Dmitri Bagh has utilized Ollama within FME to input data, create custom models, and enhance security protocols. This segment will include demos to illustrate the full capabilities of FME in AI-driven processes.
Custom AI Models: Discover how to leverage FME to build personalized AI models using your data. Whether it’s populating a model with local data for added security or integrating public AI tools, find out how FME facilitates a versatile and secure approach to AI.
We’ll wrap up with a live Q&A session where you can engage with our experts on your specific use cases, and learn more about optimizing your data workflows with AI.
This webinar is ideal for professionals seeking to harness the power of AI within their data management systems while ensuring high levels of customization and security. Whether you're a novice or an expert, gain actionable insights and strategies to elevate your data processes. Join us to see how FME and AI can revolutionize how you work with data!
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Let's Integrate MuleSoft RPA, COMPOSER, APM with AWS IDP along with Slackshyamraj55
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Let's Integrate MuleSoft RPA, COMPOSER, APM with AWS IDP along with Slack
SPICE MODEL of NJM022M in SPICE PARK
1. Device Modeling Report
COMPONENTS: OPERATIONAL AMPLIFIER
PART NUMBER: NJM022M
MANUFACTURER: NEW JAPAN RADIO
REMARK TYPE: (OPAMP)
Bee Technologies Inc.
All Rights Reserved Copyright (c) Bee Technologies Inc. 2004
2. Spice Model
OUT1 VCC
-IN1 OUT2
+IN1 -IN2
VEE +IN2
NJM022M_SUB
All Rights Reserved Copyright (c) Bee Technologies Inc. 2004
3. Output Voltage Swing, +Vout and –Vout
Simulation result
These simulation results are compared with +Vout
Evaluation circuit
Output Voltage Swing Data sheet Simulation %Error
+Vout(V) +14 +13.963 0.264
-Vout(V) -14 -13.963 0.264
All Rights Reserved Copyright (c) Bee Technologies Inc. 2004
4. Input Offset Voltage
Simulation result
Evaluation circuit
Measurement Simulation Error
Vos
5 mV 5.0228 mV 0.456 %
All Rights Reserved Copyright (c) Bee Technologies Inc. 2004
5. Slew Rate, +SR, -SR
Simulation result
Evaluation circuit
Data sheet Simulation %Error
Slew Rate(v/us)
0.5V/us 0.495V/us 1
All Rights Reserved Copyright (c) Bee Technologies Inc. 2004
6. Input current Ib, Ibos
Simulation result
Evaluation circuit
Data sheet Simulation %Error
Ib(nA) 15 14.714 1.9
Ibos(nA) 1 1.05 5
All Rights Reserved Copyright (c) Bee Technologies Inc. 2004
7. Open Loop Voltage Gain vs. Frequency , Av-dc, f-0dB
Simulation result
Evaluation circuit
Data sheet Simulation %Error
f-0dB(MHz) 1 0.992 0.8
Av-dc 88 87.97 0.034
All Rights Reserved Copyright (c) Bee Technologies Inc. 2004
8. Output Short Circuit Current - Ios
Simulation result
Evaluation circuit
Data sheet Simulation %Error
Short Circuit Current
6mA 6.084mA 1.4
All Rights Reserved Copyright (c) Bee Technologies Inc. 2004
9. Common-Mode Rejection Voltage gain
Simulation result
0V
-0.5V
-1.0V
0s 1.0s 2.0s 3.0s 4.0s
V(Vout)
Time
Evaluation circuit
Vout U11
OUT1 VCC
-IN1 OUT2
+IN1 -IN2
VEE +IN2
-5.0028mVdc V1 V+
NJM022_SUB
DC = 0 DC = 0
V- AC = 0 AC = 0
FREQ = 0 FREQ = 0 15Vdc
VAMPL = 0 VAMPL = 0
-15Vdc VOFF = 0 VOFF = 0
Vi2 Vin2
V
VOFF = 0
VAMPL = 0.5
FREQ = 1
AC = 0
DC = 0
0
Common Mode Reject Ratio=25032/0.79432=31566
Data sheet Simulation %Error
CMRR
90 89.98 0.017
All Rights Reserved Copyright (c) Bee Technologies Inc. 2004