Medical

Solutions for Implantable Defibrillators:

IGBT Driver - High Side IGBT/FET driver delivering 40J +
    16SCT000 - 30V Transformer-coupled Gate Driver
    16SCT001 - 1200V Directly-Coupled Gate Drive
Circuit Charger - Charging Capacitor Bank with no bulky transformer
Capacitor discharging - Discharge Capacitor Bank in controlled fashion
    17SCT004 - 1200V Directly Coupled Current Limiter
Voltage Sensing - Monitor Capacitor Bank in to insure proper discharging
    18SCT001 - 1200V Voltage Divider

 

Transient Surge Suppressors (TSS) for Pacemaker and Neurostimulators

Features: 

  • Smallest TSS device for pacemaker
    • 20nSec Clamping Speed
    • +/- 12V Nominal Break-Over Voltage
    • Low leakage current
    • MRI Compatible
    • Multiple Configuration available:

 

TSS Selection Guide:

DescriptionTSS Part #
Electrodes
Case Specific
Electrode
Expansion
Electrode		MRIPackageDimension
(mm)		Spice
Model
8-Terminal TSS10SCT000
8
0
Die1.1x1.6
4-Terminal TSS10SCT001
4
0
Die0.6x2.2
6-Terminal TSS10SCT002
6
1
Die1.0x2.2
5-Terminal TSS10SCT004
10SCT004A
5
1
Die
DFN-8		1.0x1.6
2.0x2.0
2-Terminal TSS10SCT008
2
0
Die
Bumped Die
DFN-8		0.9x0.6
0.9x0.6
2.0x2.0

ASICs for Medical Application

SimpleChips has extensive experience in ASIC design and manufacturing services for medical applications. Our medical ICs are used in medical implant devices providing live sustaining therapies. We have expertise in ultra-low power designs and in very high voltage analog functionalities allowing optimal performance and a high level of integration. We maintain medical grade level on our entire manufacturing flow including wafer manufacturing, assembly and test.

Process capabilities

  • Ultra-low-power ASICs
  • High Voltage ASICs (up to 1600V)
  • MRI tolerant designs

Efficient Development

  • Flexible Engagement Model
  • Experienced Design team (>30 years)
  • Low NREs using Multi-Projects-Wafers (MPW)

Medical Grade Turn-Key Manufacturing

  • Medical grade manufacturing flow
  • ISO-9001 Supply Chain
  • Low and High Volume

 

 

MPW Project