Packaging information
Package | Pins SOIC (D) | 8 |
Operating temperature range (°C) -40 to 125 |
Package qty | Carrier 75 | TUBE |
Features for the AMC1035
- Delta-sigma modulator optimized for
voltage and temperature sensing:
- ±1-V input voltage range
- High differential input resistance: 1.6 GΩ (typ)
- Integrated 2.5-V, ±5-mA reference for ratiometric measurement
- Excellent DC
performance:
- Offset error: ±0.5 mV (max)
- Offset drift: ±6 µV/°C (max)
- Gain error: ±0.25% (max)
- Gain drift: ±45 ppm/°C (max)
- Ratiometric gain drift: ±15 ppm/°C (max)
- Selectable manchester encoded or uncoded bitstream output
- Fully specified over the extended industrial temperature range: –40°C to +125°C
Description for the AMC1035
The AMC1035 is a precision delta-sigma (ΔΣ) modulator that operates from a single 3.0-V
to 5.5-V supply and with an externally supplied clock signal in the range of 9 MHz to 21 MHz. In
Manchester mode, the specified clock range is 9 MHz to 11 MHz. The differential ±1-V input
structure of the device is optimized for high noise environments typical for industrial
applications.
Select the output bitstream of the AMC1035 to be Manchester coded to prevent setup and hold
time requirement considerations of the receiving device and reduce overall circuit layout efforts.
When used with a digital filter (such as integrated in the
TMS320F28004x,
TMS320F2807x or
TMS320F2837x microcontroller families)
to decimate the output bitstream, the device can achieve 16 bits of resolution with a dynamic range
of 87 dB at a data rate of 82 kSPS.
The internal reference source of the AMC1035 supports ratiometric circuit architecture to minimize the negative impact of the supply voltage variation and temperature drift on the accuracy of the measurement.
The AMC1035 can also be used for AC power line voltage sensing with a digital isolator and isolated power supply.