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46 IP
1
8.0
Ultra-Low-Power Bandgap Voltage Reference in 6nm CMOS
The ODT-REF-6T is a high-performance reference current and voltage generator. The block incorporates a proprietary architecture to achieve high power ...
2
8.0
Low-Power, High-Accuracy, Bandgap Reference in GF22FDX
Our ICPMBGR01_GF22FDX is a high precision voltage and current reference circuit that consumes ultra-low power from a single supply. Moreover, ICPMBGR0...
3
6.0
Ultra-Low-Power Bandgap Voltage Reference in 12nm CMOS
The ODT-REF-SV1P8-12 is a high-performance reference current and voltage generator. The block incorporates a proprietary architecture to achieve high ...
4
5.0
Accurate BandGap Voltage/Current Reference Generator
CT20307 is an accurate reference voltage generator. In order to achieve a total error <2%, the amplifier in the bandgap core block implements an of...
5
4.0
Ultra-Low-Power (<140nA) Bandgap Voltage Reference in 40nm CMOS
The ODT-REF-40LP-SV1P8-ULP140N is an ultra-low power CMOS bandgap reference designed in a 40nm standard CMOS process without needing the use of any bi...
6
4.0
Ultra-Low-Power Bandgap Voltage Reference in GF 22 FDX
The ODT-REF-GF22FDX-SV1P8 is a high-performance reference current and voltage generator. The block incorporates a proprietary architecture to achieve ...
7
4.0
Ultra-Low-Power Bandgap Voltage Reference in TSMC 4nm CMOS
The ODT-REF-SV1P2-4T is a high-performance reference current and voltage generator. The block incorporates a proprietary architecture to achieve high ...
8
3.0
1.2 V Bandgap Voltage Reference
The WEABG18NI12SFN21M22G is a band reference voltage that provides a 1.224 V output from an 1.8 V input. It is specified over the −40°C to +120°C temp...
9
3.0
Low Power BandGap Reference in SMIC 40nm
The BGR IP is a BangGap Reference for low-power application. The output reference voltage are two fixed voltage:0.6v/1.2v and two adjustable voltage r...
10
2.0
High performance 1.8V reference current and voltage generator
The ODT-REF-16FFCT-SV1P8 is a high-performance reference current and voltage generator. The block incorporates a proprietary architecture to achieve h...
11
1.0
1.2V to 0.85V Linear Voltage Regulator
The low-dropout regulator provides 0.85V regulated output voltage. It consist of a regulator core and a buffer. It can deliver up to 200mA. The operat...
12
1.0
Bandgap Reference 1.2V Output
Bandgap Reference 1.2V Output...
13
1.0
Reference Voltage Generator, 1V Output, 2.5V external reference
Reference Voltage Generator, 1V Output, 2.5V external reference...
14
1.0
Voltage Reference with Cext Option, 1.2V - IHP 250nm SiGe
Voltage Reference with Cext Option, 1.2V - IHP 250nm SiGe...
15
0.118
Band Gap IP, Input: 0.9V - 1.1V, VBG=0.5V, UMC 90nm SP process
Input 0.9V-1.1V, VBG=0.5V, Band Gap, UMC 90nm SP/RVT Logic Low-K process....
16
0.118
Band Gap IP, Input: 1.08V - 1.32V, VBG=0.6V, UMC 90nm LL process
Input 1.08V-1.32V, VBG=0.6V, Band Gap, LL process, UMC 90 nm LL Logic/RVT Low-K process....
17
0.118
Band Gap IP, Input: 1.0V - 1.2V, VBG=0.8V, UMC 0.13um LL/FSG process
VBG=0.8V, VCCA=1.2V, VCCA_min=1.0V, Ivcca=45uA, UMC 0.13um LL Logic/FSG process....
18
0.118
Band Gap IP, Input: 1.0V - 1.5V, VBG=0.615V, UMC 0.13um HS/FSG process
Input 1.0V-1.5V, VBG=0.615V, Bnad Gap, HS process, UMC 0.13um HS/FSG Logic process....
19
0.118
Band Gap IP, Input: 1.0V - 1.5V, VBG=0.615V, UMC 0.15um SP process
VBG=0.615V, VCCA=1.5V, VCCA_min=1.0V, Ivcca=23uA, UMC 0.15um SP Logic process....
20
0.118
Band Gap IP, Input: 1.0V - 1.8V, VBG=0.615V, UMC 0.18um LL process
VBG=0.615V, VCCA=1.8V, VCCA_min=1.0V, Ivcca=23uA, UMC 0.18um LL Logic process....
21
0.118
Band Gap IP, Input: 1.2V - 1.98V, VBG=0.615V, UMC 0.153um Logic process
Input 1.2V-1.98V, VBG=0.615V bandgap, UMC 0.153um Logic process....
22
0.118
Band Gap IP, Input: 1.2V - 3.3V, VBG=0.615V, UMC 0.18um G2 process
VBG=0.615V, VCCAH=3.3V, VCCAH_min=1.2V, Ivccah=25uA, UMC 0.18um GII Logic process....
23
0.118
Band Gap IP, Input: 1.2V - 4V, VBG=0.615V, UMC 0.18um LL process
0.18um, LL, bandgap, VBG=0.615 at VCCAH=1.2V~4V, UMC 0.18um LL Logic process....
24
0.118
Band Gap IP, Input: 1V - 1.5V, VBG=0.8V, UMC 0.11um HS/AE process
Input 1V-1.5V, VBG=0.8V bandgap, UMC 0.11um HS/AE (AL Advanced Enhancement) Logic process....
25
0.118
Band Gap IP, Input: 1V - 1.5V, VBG=0.8V, UMC 0.11um HS/FSG process
Input 1V-1.5V, VBG=0.8V bandgap, UMC 0.11um HS/FSG Logic process....
26
0.118
Band Gap IP, Input: 2.0V - 3.3V, VBG=1.23V, UMC 0.25um Logic process
VBG=1.23V, VCCAH=3.3V, VCCAH_min=2.0V, Ivccah=25uA, UMC 0.25um Logic process....
27
0.118
Band Gap IP, Input: 2.0V - 3.6V, VBG=1.21V, HJTC 0.18um eFlash/G2 process
Input 2.0V-3.6V, VBG=1.21V bandgap, HJTC 0.18um eFlash process....
28
0.118
Band Gap IP, Input: 2.0V - 3.6V, VBG=1.22V, UMC 0.153um MS process
Input 2.0V-3.6V, VBG=1.22V, Band Gap, UMC 0.153um 1.8V/3.3V Logic/Mixed-Mode process....
29
0.118
Band Gap IP, Input: 2.0V - 4.0V, VBG=1.23V, UMC 0.18um G2 process
Input power range = 2.0V-4.0V, VBG=1.23V, bandgap, UMC 0.18um GII Logic process....
30
0.118
Band Gap IP, Input: 2.25V - 2.75V, VBG=1.23V, UMC 55nm SP process
Input 2.25V-2.75V, VBG=1.23V, Band Gap, SP process, UMC 55nm SP/RVT Low-K Logic process....
31
0.118
Band Gap IP, Input: 2.25V - 2.75V, VBG=1.23V, UMC 65nm SP process
Input 2.25V-2.75V, VBG=1.23V, Band Gap, SP process, UMC 65nm SP/RVT Low-K Logic process....
32
0.118
Band Gap IP, Input: 2.25V - 2.75V, VBG=1.23V, UMC 90nm SP process
Input 2.25V-2.75V, VBG=1.23V, Bnad Gap, SP process, UMC 90nm SP/RVT (FSG) Logic process....
33
0.118
Band Gap IP, Input: 2.5V - 5.5V, VBG=1.21V, HJTC 0.18um eFlash/G2 process
Input 2.5V-5.5V, VBG=1.21V bandgap, HJTC 0.18um eFlash process....
34
0.0
1.17 V Reference current and voltage source
Reference current and voltage source is used to supply any analog blocks. It is based on the reference voltage source forming temperature compensation...
35
0.0
1.18 V/ 1.02...5.1 uA Reference current and voltage source
Reference current and voltage source is used to supply any analog blocks. It is based on the reference voltage source forming temperature compensation...
36
0.0
1.19 V Reference voltage source
Reference voltage source forms temperature-compensated voltage level equal to the width of the band gap of silicon due to mutual compensation of tempe...
37
0.0
0.6V/10u, 20uA, 100nA, 200nA Reference voltage and current source
055TSMC_RS_05 is a reference voltage and current source that consists of bandgap voltage reference, two voltage-to-current converters and current-volt...
38
0.0
600mV Sub-BG Voltage Reference
600mV Sub-BG Voltage reference, Vdd=1V, Idd=80uA...
39
0.0
Band-gap Reference in GF N65 LP. Multiple voltages referenced to internal and external resistors.
The PMCC_REFS IP block combines two modules of GM current references and one module of BG (band-gap) current reference. Each module provides up to twe...
40
0.0
Bandgap (1.2V)+ buffers + current bias
Bandgap (1.2V)+ buffers (2.56V, 1.2V) + current bias (n*0.5uA), all trimmable...
41
0.0
Bandgap cell, 1.2V, trimmable, no buffering
Bandgap cell, 1.2V, trimmable, no buffering...
42
0.0
Bandgap Voltage Reference, 0.45 V Output
The Bandgap Voltage Reference IP is a 1.0 V input, low PPM/°C, 0.45 V reference voltage output implemented in the TSMC 3nm N3P CMOS process technology...
43
0.0
Ultra-low Power Voltage Reference
...
44
0.0
Voltage Reference, 1.2V
Tunable Voltage Reference, 1.2V...
45
0.0
Combined Voltage and Current Reference
The OT0118 is a medium precision, trimmed bandgap voltage reference and temperature compensated current reference generator....
46
0.0
Low Noise Voltage Reference
...
