This evaluation board lets you try a variety of NVE’s flagship series of award-winning of IsoLoop Isolators.
The board has four IL700-Series isolators in four package types:
• IL716E (wide-body SOIC-16)
• IL715-3E (narrow-body SOIC-16)
• IL712-3E (SOIC-8)
• IL710S-1E (MSOP-8)
IL700-Series Isolators use patented spintronic Giant Magnetoresistive (GMR) technology. The symmetric magnetic coupling barrier provides a typical propagation delay of only 10 ns and a pulse width distortion as low as 300 ps, the best of any isolator. And their real ceramic/polymer barriers last pretty much forever.
This evaluation board lets you try the worlds densest high-performance isolators.
The board includes five high-performance QSOP isolators:
- IL715-1E: 4-Channel (all same direction)
- IL716-1E: 4-Channel (2 each direction)
- IL717-1E: 4-Channel (3 transmit, 1 receive)
- IL260-1E: 5-Channel (all same direction)
- IL261-1E: 5-Channel (4 transmit, 1 receive)
IsoLoop QSOP isolators have best-in-class performance:
- 110 Mbps
- 2500 V isolation
- -40°C to +100°C
- 3 V to 5.5 V operation
- 44000 year barrier life
- True 4 mm creepage
These 2 x 3.5-inch (50 x 90 mm) boards have an IL710S-1E 150 Mbps single-channel (all the same direction) ultraminiature MSOP8 isolator, two bypass capacitors as recommended, screw connections, test pads, and provisions for header pins.
The board lets you evaluate the world's smallest isolators.
These 2 x 3.5-inch (50 x 90 mm) boards have an IL715E four-channel (all the same direction) wide-body isolator, two bypass capacitors as recommended, screw connections, test pads, and provisions for header pins.
The boards let you evaluate the world's best isolators.
These 2 x 3.5-inch (50 x 90 mm) boards have an IL715-1E four-channel (all the same direction) ultraminiature QSOP isolator, two bypass capacitors as recommended, screw connections, test pads, and provisions for header pins.
The board lets you evaluate the world's smallest high-performance isolators.
These 2 x 3.5-inch (50 x 90 mm) boards have an IL715-3E four-channel (all the same direction) narrow-body isolator, two bypass capacitors as recommended, screw connections, test pads, and provisions for header pins.
The boards let you evaluate the world's best isolators.
These 2 x 3.5-inch (50 x 90 mm) boards have an IL715VE isolator, two bypass capacitors as recommended, screw connections, test pads, and provisions for header pins.
V-Series isolators are rated at a best-in-class 7 kVrms (9.9 kVpeak) isolation voltage. The evaluation board demonstrates best practice for maintaining 8 millimeter creepage. The isolators are conformally-coated to minimize arcing around the part.
These 2 x 3.5-inch (50 x 90 mm) boards have an IL716E four-channel (two each direction) wide-body isolator, two bypass capacitors as recommended, screw connections, test pads, and provisions for header pins.
The boards let you evaluate the world's best isolators.
These 2 x 3.5-inch (50 x 90 mm) boards have an IL716-1E four channel (two each direction) ultraminiature QSOP isolator, two bypass capacitors as recommended, screw connections, test pads, and provisions for header pins.
The boards let you evaluate the world's smallest high-performance isolators.
These 2 x 3.5-inch (50 x 90 mm) boards have an IL716VE isolator, two bypass capacitors as recommended, screw connections, test pads, and provisions for header pins.
V-Series isolators are rated at a best-in-class 7 kVrms (9.9 kVpeak) isolation voltage. The evaluation board demonstrates best practice for maintaining 8 millimeter creepage. The isolators are conformally-coated to minimize arcing around the part.
These 2 x 3.5-inch (50 x 90 mm) boards have an IL717-1E ultraminiature four-channel (three transmit, one receive) QSOP isolator, two bypass capacitors as recommended, screw connections, test pads, and provisions for header pins.
The board lets you evaluate the world's smallest high-performance isolators.
These 2 x 3.5-inch (50 x 90 mm) boards have an IL717VE isolator, two bypass capacitors as recommended, screw connections, test pads, and provisions for header pins.
V-Series isolators are rated at a best-in-class 7 kVrms (9.9 kVpeak) isolation voltage. The evaluation board demonstrates best practice for maintaining 8 millimeter creepage. The isolators are conformally-coated to minimize arcing around the part.
This Evaluation Board uses the 3.3-to-3.3V version of the world’s smallest isolated DC-to-DC convertor, the ILDC11-15E.
The 1.75 by 1.75 inch (45 by 45 mm) board has an ILDC11-15E plus the three required external bypass capacitors as well as LEDs to show the DC-to-DC convertor is operating. Screw terminals provide easy connections.
The ILDC11 is an ultraminiature one-quarter watt DC-to-DC convertor with 2.5 kV isolation that can be used to generate an isolated 3.3-volt bus supply from a 3.3-volt controller supply.
No additional regulation is required and there is no minimum load. Frequency hopping and shielding reduce EMI, and ferrite beads are not necessary for EMI mitigation.
This Evaluation Board uses the 3.3-to-3.3V version of our miniature DC-DC convertor, the ILDC11VE.
The 1.75 by 1.75 inch (45 by 45 mm) board has an ILDC11-15E plus the three required external bypass capacitors as well as LEDs to show the DC-to-DC convertor is operating. Screw terminals provide easy connections.
The ILDC11VE is a miniature one-quarter watt DC-to-DC convertor with 4 kV isolation that can generate an isolated 3.3-volt bus supply from a 3.3-volt controller supply.
No additional regulation is required and there is no minimum load. Frequency hopping and shielding reduce EMI, and ferrite beads are not necessary for EMI mitigation.
This Evaluation Board uses the 3.3-to-5 V version of world’s smallest isolated DC-to-DC convertor, the ILDC12-15E.
The 1.75 by 1.75 inch (45 by 45 mm) board has an ILDC12-15E plus the three required external bypass capacitors as well as LEDs to show the DC-to-DC convertor is operating. Screw terminals provide easy connections.
The ILDC12 is an ultraminiature one-quarter watt DC-to-DC boost convertor with 2.5 kV isolation that can be used to generate an isolated five-volt bus supply from a 3.3-volt controller supply.
No additional regulation is required and there is no minimum load. Frequency hopping and shielding reduce EMI, and ferrite beads are not necessary for EMI mitigation.
This Evaluation Board uses the 3.3-to-5 V version of our miniature DC-to-DC convertor, the ILDC12VE.
The 1.75 by 1.75 inch (45 by 45 mm) board has an ILDC12VE plus the three required external bypass capacitors as well as LEDs to show the DC-to-DC convertor is operating. Screw terminals provide easy connections.
The ILDC12 is an ultraminiature one-quarter watt DC-to-DC boost convertor with 4 kV isolation that can be used to generate an isolated five-volt bus supply from a 3.3-volt controller supply.
No additional regulation is required and there is no minimum load. Frequency hopping and shielding reduce EMI, and ferrite beads are not necessary for EMI mitigation.
This Evaluation Board uses the 3.3-to-6 V version of the world’s smallest isolated DC-to-DC convertor, the ILDC13-15E.
The 1.75 by 1.75 inch (45 by 45 mm) board has an ILDC13-15E plus the three required external bypass capacitors as well as LEDs to show the DC-to-DC convertor is operating. Screw terminals provide easy connections.
The ILDC13-15E is an ultraminiature one-quarter watt DC-to-DC boost convertor with 2.5 kV isolation that can be used to generate an isolated six-volt gate supply from a 3.3-volt controller supply.
No additional regulation is required and there is no minimum load. Frequency hopping and shielding reduce EMI, and ferrite beads are not necessary for EMI mitigation.
This Evaluation Board uses the 3.3-to-6 V version of our miniature DC-to-DC convertor, the ILDC13VE.
The 1.75 by 1.75 inch (45 by 45 mm) board has an ILDC13VE plus the three required external bypass capacitors as well as LEDs to show the DC-to-DC convertor is operating. Screw terminals provide easy connections.
The ILDC13VE is an miniature one-quarter watt DC-to-DC boost convertor with 4 kV isolation that can be used to generate an isolated six-volt gate supply from a 3.3-volt controller supply.
No additional regulation is required and there is no minimum load. Frequency hopping and shielding reduce EMI, and ferrite beads are not necessary for EMI mitigation.