This document describes a simplified SPICE behavioral model for a saturable transformer. It provides an overview of the model concepts and parameters that characterize the saturable core and ideal transformer components of the model. These include BSAT, RLOSS, LM, and BEXP for the core, and N, RP, RS, and LP for the transformer. The document also provides examples of simulations using the model to demonstrate its hysteresis behavior under different excitation conditions.
This document provides information about semiconductor components in Spice Park's inventory in April 2017. It shows that semiconductors made up 75% of the total inventory of 4,640 pieces. Specifically, it details 282 general purpose rectifier diodes from 12 different manufacturers, including part numbers, manufacturers, specifications and update history. It also provides charts summarizing the inventory breakdown by component type.
This document describes a simplified SPICE behavioral model for simulating the input-output characteristics of a DC/DC converter. The model focuses on the input-output relationships rather than detailed circuitry, allowing faster system-level simulations. Key parameters like efficiency, input and output voltages can be set to represent different converter specifications. The model enables transient and DC sweep analysis to observe output voltage and efficiency variations with changing input voltage.
This document describes a simplified SPICE behavioral model for simulating the input-output characteristics of a DC/DC converter. The model focuses on the relationships between input voltage, output voltage, and efficiency rather than detailed circuitry. It allows faster system-level simulations compared to cycle-to-cycle models. Parameters like output voltage, efficiency, and minimum/maximum input voltages can be adjusted to specify different converter designs. The document provides an example model and shows how to simulate the input-output characteristics.
Location of Siam Bee Technologies Co.,Ltd. LocationTsuyoshi Horigome
Siam Bee Technologies Co.,Ltd. is located at #1305 BB Bldg.54 Sukhumvit 21 (Asoke)Rd. ,Bangkok,10110 Thailand. The company is headed by Tsuyoshi Horigome of the Device Modeling Laboratory. The document provides the name and address of a company in Thailand.
This document describes a simplified SPICE behavioral model for lithium-ion batteries. The model allows circuit designers to predict battery runtime and performance by modeling voltage over time at different charge and discharge rates. Key parameters like capacity, state of charge, and number of cells can be adjusted based on battery specifications. Examples are provided to demonstrate modeling charge/discharge times and voltage curves for sample battery configurations.
This document describes a simplified SPICE behavioral model for a saturable transformer. It provides an overview of the model concepts and parameters that characterize the saturable core and ideal transformer components of the model. These include BSAT, RLOSS, LM, and BEXP for the core, and N, RP, RS, and LP for the transformer. The document also provides examples of simulations using the model to demonstrate its hysteresis behavior under different excitation conditions.
This document provides information about semiconductor components in Spice Park's inventory in April 2017. It shows that semiconductors made up 75% of the total inventory of 4,640 pieces. Specifically, it details 282 general purpose rectifier diodes from 12 different manufacturers, including part numbers, manufacturers, specifications and update history. It also provides charts summarizing the inventory breakdown by component type.
This document describes a simplified SPICE behavioral model for simulating the input-output characteristics of a DC/DC converter. The model focuses on the input-output relationships rather than detailed circuitry, allowing faster system-level simulations. Key parameters like efficiency, input and output voltages can be set to represent different converter specifications. The model enables transient and DC sweep analysis to observe output voltage and efficiency variations with changing input voltage.
This document describes a simplified SPICE behavioral model for simulating the input-output characteristics of a DC/DC converter. The model focuses on the relationships between input voltage, output voltage, and efficiency rather than detailed circuitry. It allows faster system-level simulations compared to cycle-to-cycle models. Parameters like output voltage, efficiency, and minimum/maximum input voltages can be adjusted to specify different converter designs. The document provides an example model and shows how to simulate the input-output characteristics.
Location of Siam Bee Technologies Co.,Ltd. LocationTsuyoshi Horigome
Siam Bee Technologies Co.,Ltd. is located at #1305 BB Bldg.54 Sukhumvit 21 (Asoke)Rd. ,Bangkok,10110 Thailand. The company is headed by Tsuyoshi Horigome of the Device Modeling Laboratory. The document provides the name and address of a company in Thailand.
This document describes a simplified SPICE behavioral model for lithium-ion batteries. The model allows circuit designers to predict battery runtime and performance by modeling voltage over time at different charge and discharge rates. Key parameters like capacity, state of charge, and number of cells can be adjusted based on battery specifications. Examples are provided to demonstrate modeling charge/discharge times and voltage curves for sample battery configurations.
This document describes a simplified SPICE behavioral model for lithium-ion batteries. The model characterizes the battery using parameters like capacity and state of charge. It accounts for characteristics like charge/discharge time at different current rates and voltage versus state of charge. Examples are provided to model specific battery specifications and extend the model to multiple battery cells in series.
This document describes a simplified SPICE behavioral model for lead-acid batteries. The model allows circuit designers to simulate battery charge and discharge characteristics. It accounts for voltage versus state of charge and enables predicting battery runtime. Parameters like capacity, number of cells, and initial state of charge can be adjusted based on battery specifications. Simulation examples demonstrate charging, discharging, and voltage profiles for sample lead-acid batteries.
Update 22 models(Schottky Rectifier ) in SPICE PARK(APR2024)Tsuyoshi Horigome
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.
Update 31 models(Diode/General ) in SPICE PARK(MAR2024)Tsuyoshi Horigome
The document provides an inventory update from March 2024 of parts in the Spice Park warehouse. It lists 6,725 total parts across various categories including semiconductors, passive parts, batteries, mechanical parts, motors, and lamps. The semiconductor section lists 652 general purpose rectifier diodes from 18 different manufacturers with quantities ranging from 2 to 145 pieces.
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.
This document describes a simplified SPICE behavioral model for lithium-ion batteries. The model characterizes the battery using parameters like capacity and state of charge. It accounts for characteristics like charge/discharge time at different current rates and voltage versus state of charge. Examples are provided to model specific battery specifications and extend the model to multiple battery cells in series.
This document describes a simplified SPICE behavioral model for lead-acid batteries. The model allows circuit designers to simulate battery charge and discharge characteristics. It accounts for voltage versus state of charge and enables predicting battery runtime. Parameters like capacity, number of cells, and initial state of charge can be adjusted based on battery specifications. Simulation examples demonstrate charging, discharging, and voltage profiles for sample lead-acid batteries.
Update 22 models(Schottky Rectifier ) in SPICE PARK(APR2024)Tsuyoshi Horigome
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.
Update 31 models(Diode/General ) in SPICE PARK(MAR2024)Tsuyoshi Horigome
The document provides an inventory update from March 2024 of parts in the Spice Park warehouse. It lists 6,725 total parts across various categories including semiconductors, passive parts, batteries, mechanical parts, motors, and lamps. The semiconductor section lists 652 general purpose rectifier diodes from 18 different manufacturers with quantities ranging from 2 to 145 pieces.
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.
Update 29 models(Solar cell) in SPICE PARK(FEB2024)Tsuyoshi Horigome
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.
This document discusses circuit simulations using LTspice. It describes driving a circuit simulation by inserting a 250 ohm resistor between the output terminals. It also describes simulating a 1 channel bridge circuit where the DUT1 and DUT2 resistors are both set to 100 ohms and the input voltage is set to either 1V or 5V.
This document discusses parametric sweeps of external and internal resistance values Rg for circuit simulation in LTspice. It also references outputting a waveform similar to a report on fall time characteristics for a device modeling report with customer Samsung.