The agileADC analog-to-digital converter is a traditional Charge-Redistribution SAR ADC that is referenced to VDD, VSS. The architecture can achieve up to 12-bit resolution at sample rates up to 64 MSPS. It includes a 16-channel input multiplexor that can be configured to be buffered or unbuffered, and support differential or single-ended inputs.
Agile Analog designs are based on tried and tested architectures to ensure reliability and functionality. Our automated design methodology is programmatic, systematic and repeatable leading to analog IP that is more verifiable, more robust and more reliable. Our methodology also allows us to quickly re-target our IP to different process options.
For a further product information, please contact sales@agileanalog.com
12-bit SAR ADC TSMC
Overview
Key Features
- Resolution: 12 bits
- Sampling Rate (Fs) 1: Up to 64 MSPS
- Input Signal Bandwidth: Fs/2
- SINAD1: Typ 69 dB
- ENOB1: Typ 11.3 bits
- SFDR1: Typ 90 dBc
- INL: +/2 LSB
- DNL: +/-1 LSB
- Monotonic and no missing codes
- Up to 16 input channels
- Integrated reference generator
- Integrated calibration mode
- Silicon area – Please contact Agile Analog
Benefits
- Digitally Wrapped
- - AMBA-APB Interface to simplify integration, testing and operation.
- - Provided with System Verilog models
- DFT/DFM
- - Incorporated trim and calibration to facilitate process and/or manufacturing offsets to be adjusted
- - Built-in test mode
- Configurable Inputs
- - Up to 16 input channels
- - Buffer or unbuffered
- - Differential or Single-ended
Block Diagram
Applications
- IoT, Security, Automotive, AI, SoCs, ASICs
Deliverables
- Datasheet
- Testing and Integration Guide
- Verilog Models
- Floorplan (LEF)
- Timing models (LIB)
- Netlist (CDL)
- Layout (GDS)
- Physical Verification Report
- Design Report
Technical Specifications
Foundry, Node
TSMC
Maturity
Available on request
Availability
Now
TSMC
Pre-Silicon:
3nm
,
4nm
,
5nm
,
6nm
,
7nm
,
10nm
,
12nm
,
16nm
,
20nm
,
22nm
,
28nm
,
28nm
HP
,
28nm
HPC
,
28nm
HPCP
,
28nm
HPL
,
28nm
HPM
,
28nm
LP
,
40nm
G
,
40nm
LP
,
45nm
GS
,
45nm
LP
,
55nm
FL
,
55nm
G
,
55nm
GP
,
55nm
LP
,
55nm
NF
,
55nm
ULP
,
55nm
ULPEF
,
55nm
UP
,
65nm
G
,
65nm
GP
,
65nm
LP
,
80nm
,
80nm
GT
,
80nm
HS
,
85nm
,
90nm
FS
,
90nm
FT
,
90nm
G
,
90nm
GOD
,
90nm
GT
,
90nm
LP
,
90nm
zzz
,
110nm
G
,
110nm
HV
,
110nm
LVP
,
130nm
,
130nm
BCD
,
130nm
BCD+
,
130nm
G
,
130nm
LP
,
130nm
LV
,
130nm
LVOD
,
150nm
G
,
150nm
LV
,
160nm
G
,
160nm
LP
,
180nm
,
180nm
E
,
180nm
ELL
,
180nm
FG
,
180nm
G
,
180nm
LP
,
180nm
LV
,
180nm
ULL