The SGM5100/SGM5101 are 14-bit 10MSPS/40MSPS, low power 3V single-channel analog-to-digital converters (ADCs) suitable for sampling high frequency and wide dynamic range signals. With 74.1dB/72.8dB SNR and 79dB/88dB SFDR for signals at the Nyquist frequency, the SGM5100/SGM5101 meet demanding requirements in imaging and communication applications.
The SGM5100/SGM5101 feature good DC performances such as ±1.7LSB (TYP) INL, ±0.65LSB (TYP) DNL and no missing codes over-temperature. Besides, the 1LSBRMS transition noise is also a remarkable feature of the devices.
The SGM5100/SGM5101 support single-ended sampling clock input with an internal optional clock duty cycle stabilizer, which guarantees high performance for a wide range of clock duty cycles when sampling at full speed.
The SGM5100/SGM5101 are available in a Green TQFN-5×5-32DL package.
- Single 3V Supply (2.7V to 3.4V)
- Sample Rate:
SGM5100: 10MSPS
SGM5101: 40MSPS - Low Power:
SGM5100: 55.5mW (TYP)
SGM5101: 190mW (TYP) - SNR:
SGM5100: 74.1dB (TYP)
SGM5101: 72.8dB (TYP) - SFDR:
SGM5100: 79dB (TYP)
SGM5101: 88dB (TYP) - Flexible Input: 1VP-P to 2VP-P Range
- Full Power Bandwidth S/H: 575MHz
- No Missing Codes
- Sleep and Nap Modes
- Support Clock Duty Cycle Stabilizer
- Available in a Green TQFN-5×5-32DL Package
Communication Infrastructures
Medical Imaging Systems
Instrumentations
Part Number | Status | Package | Pins | Pd-Free | RoHS | REACH | Green | MSL Rating | Operating Temperature Range | Material Content | Reliability Report | Unit Resale Price* (Volume Range: in USD) | Lead Time** (Volume Range: Days) | |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
SGM5100XTVJ32G/TR | Active | TQFN-5×5-32DL | 32 | YES | YES | YES | YES | MSL3 | -40℃ to +125℃ | View | View | |||
SGM5100XTVJ32SG/TR | Active | TQFN-5×5-32DL | 32 | YES | YES | YES | YES | -40℃ to +125℃ | View | View |
* The unit resale price is for reference purposes only. Please contact our distributors for a formal quotation.
** The lead time provided is for reference purposes only and is subject to change based on different circumstances.
