PERANGKAT ANALOG FPGAs Manual Pengawasan lan Urutan Piranti Pamilik

Piranti Pengawasan lan Urutan FPGA

“

Spesifikasi

Inti FPGA lan I/O Voltages

Kulawarga AMD FPGA	Inti Voltage (V)	Tambahan Voltage (V)	I/O Voltage (V)

Kulawarga Intel FPGA	Inti Voltage (V)	Tambahan Voltage (V)	I/O Voltage (V)

ADI Multi-voltage Supervisor karo AMD & Intel FPGAs

Nomer Part	Tipe Monitoring	Voltagdipantau (V)	Akurasi (%)

Pandhuan Panggunaan Produk

1. Understanding Core lan I / O Voltages

Penting kanggo deleng tabel sing kasedhiya kanggo ngenali
inti lan I / O voltage syarat kanggo AMD utawa Intel tartamtu
kulawarga FPGA. Priksa manawa voltages selaras karo specifications
kasebut kanggo njaga kinerja sing optimal.

2. Konfigurasi Multi-voltage Pengawas

Kanggo mesthekake stabilitas sistem, ngatur multi-voltage
pengawas adhedhasar vol ngawasitages kasebut kanggo sampeyan
FPGA. Tindakake pedoman sing kasedhiya ing manual produk kanggo nyetel
munggah sirkuit pengawasan kanthi akurat.

3. Monitoring Voltage Tingkatan

Ngawasi kanthi rutin voltage tingkat inti FPGA,
tambahan, lan I/O voltagnggunakake sirkuit pengawasan. Sembarang
penyimpangan saka vol sing ditemtokaketage kisaran kudu ditangani
kanthi cepet kanggo nyegah prilaku sing ora dikarepke.

FAQ

P: Napa penting kanggo ngawasi pirang-pirang voltage ril kanggo
AMD lan Intel FPGA?

A: Ngawasi kaping voltage ril mesthekake yen FPGA
makaryakke ing vol sing ditemtokaketage kisaran, sistem nambah
stabilitas lan nyegah masalah potensial related kanggo voltage
fluktuasi.

P: Kepiye carane milih multi-vol sing cocogtage supervisor kanggo
FPGA aku?

A: Waca nomer bagean lan spesifikasi jinis pemantauan
kasedhiya ing manual pangguna kanggo milih multi-voltage pengawas
sing selaras karo voltage ngawasi syarat Panjenengan
AMD utawa Intel FPGA tartamtu.

“`

Piranti Pengawas lan Urutan kanggo AMD lan Intel FPGA

Desain FPGA modern nggunakake teknik fabrikasi maju, mbisakake geometri proses sing luwih cilik lan vol inti ngisortages. Tren iki, Nanging, mbutuhake nggunakake sawetara voltage rel kanggo nampung standar I / O warisan. Kanggo njamin stabilitas sistem lan nyegah prilaku sing ora dikarepke, saben voltage ril mbutuhake pengawasan khusus.
Piranti Analog nawakake portofolio lengkap voltage solusi ngawasi, kalebu pengawas prasaja lan pengawas jendhela. Jangkauan kita kalebu saka saluran siji dhasar nganti multi-volume sing sugih fiturtage supervisor, gumunggung akurasi industri-leading (nganti ± 0.3% ing suhu).
Inti lan I / O voltage syarat kanggo macem-macem kulawargané FPGA presented ing tabel cetha lan gampang-kanggo-referensi. Inti voltage kisaran biasane span saka 0.70 V kanggo 1.2 V, nalika I/O voltagtingkat e bisa beda-beda antarane 1 V lan 3.3 V.
Inti ngisor voltagIki mbutuhake akurasi ambang dhuwur kanggo linuwih

MAX16193
0.3% Akurasi Sirkuit Pengawas DualChannel
· ± 0.3% Akurasi Ambang · 0.6V nganti 0.9V IN1 Ambang Range · 0.9V nganti 3.3V IN2 Ambang Range · ±2% nganti ±5% UV/OV ngawasi
Range · Ngaktifake Keamanan Fungsional ing
Level Sistem
MAX42500
Family Monitor Sistem Daya Industri Papat nganti Tujuh Input
· IEC 61508 SIL 3 Certified · Lima Fixed-Voltage Monitoring
Input · Loro Pelacakan DVS Diferensial-
Voltage Input Ngawasi kanthi Remote Ground Sense · Rekaman Urutan Daya Fleksibel · Pengawas sing Gampang utawa Tantangan/Respons

Multi-voltage Supervisor kanggo AMD & Intel FPGAs

Tabel nyedhiyakake data babagan vol inti khastages, tambahan voltages, lan I/O voltages kanggo piranti FPGA saka AMD lan Intel. Iki voltagIki penting kanggo kinerja optimal lan stabilitas piranti FPGA, supaya bisa digunakake ing parameter sing ditemtokake.

AMD & Intel FPGA Core lan I/O Voltages

AMD

Kulawarga AMD FPGA

Inti Voltage (V)

Tambahan Voltage
(V)

I/O Voltage (V)

Virtex UltraScale + Virtex UltraScale
Virtex 7 Kintex UltraScale+

0.85, 0.72, 0.90 0.95, 1 1, 0.90
0.85, 0.72, 0.90

1.8 1.8 1.8, 2.0 1.8

1.0, 1.2, 1.35, 1.5, 1.8, 2.5, 3.3 1.0, 1.2, 1.35, 1.5, 1.8, 2.5, 3.3
1.2, 1.35, 1.5, 1.8, 2.5, 3.3 1.0, 1.2, 1.35, 1.5, 1.8, 2.5, 3.3

Kintex UltraScale

0.95, 0.90, 1.0

1.8

1.0, 1.2, 1.35, 1.5, 1.8, 2.5, 3.3

Kintex 7

1, 0.90, 0.95

1.8

Artix UtraScale+

0.85, 0.72

1.8

Pasal 7

1.0, 0.95, 0.90

1.8

1.2, 1.35, 1.5, 1.8, 2.5, 3.3 1.0, 1.2, 1.35, 1.5, 1.8, 2.5, 3.3
1.2, 1.35, 1.5, 1.8, 2.5, 3.3

Spartan Ultrascale+ Spartan 7
Kulawarga Intel FPGA
Agilex 7 F Agilex 7 I Stratix 10 Stratix V Stratix IV Arria 10 Arria V GX Arria V GZ Siklon 10 GX Siklon 10 LP Siklon V Siklon IV MAX 10

0.85, 0.72, 0.90
1, 0.95
Inti Voltage (V)
0.70 – 0.90 0.70 – 0.90 0.8 – 0.94 0.85, 0.9
0.9 0.9, 0.95 1.1, 1.15
0.85 0.9 1.0, 1.2 1.1, 1.15 1.0, 1.2 1.2 utawa 3.0, 3.3

1.8
1.8 INTEL
Tambahan Voltage
(V) -

1.0, 1.2, 1.35, 1.5, 1.8, 2.5, 3.3 1.2, 1.35, 1.5, 1.8, 2.5, 3.3
I/O Voltage (V)
1.2, 1.5 1.2, 1.5 1.2, 1.25, 1.35, 1.5, 1.8, 2.5, 3, 3.3 1.2, 1.25, 1.35, 1.5, 1.8, 2.5, 3.0. 1.2, 1.5, 1.8, 2.5, 3.0, 1.2, 1.25 1.35, 1.5, 1.8, 2.5, 3.0, 1.2, 1.25, 1.35 1.5, 1.8, 2.5, 3.0, 3.3, 1.2, 1.25, 1.35, 1.5 1.8, 2.5, 3.0, 1.2, 1.25, 1.35 1.5, 1.8, 2.5, 3.0, 1.2, 1.5, 1.8, 2.5, 3, 3.3 1.2, 1.25, 1.35, 1.5, 1.8, 2.5, 3.0, 3.3

ADI Multi-voltage Supervisor karo AMD & Intel FPGAs

Jumlah Voltages Dipantau

Nomer Part

Tipe Monitoring

Voltagdipantau (V)

Akurasi (%)

1

MAX16132

jendhela

1.0 nganti 5.0

±1

1

MAX16161, MAX16162

Prasaja

1.7 nganti 4.85, 0.6 nganti 4.85

±1.5

2

MAX16193

jendhela

0.6 nganti 0.9, 0.9 nganti 3.3

±0.3

3

MAX16134

jendhela

5.0, 4.8, 4.5, 3.3, 3.0, 2.5, 1.8, 1.2, 1.16, 1.0

±1

4

LTC2962, LTC2963, LTC2964

jendhela

5.0, 3.3, 2.5, 1.8, 1.5, 1.2, 1.0, 0.5V

±0.5

4

MAX16135

jendhela

5.0, 4.8, 4.5, 3.3, 3.0, 2.5, 2.3, 1.8, 1.5, 1.36, 1.22, 1.2, 1.16, 1.0

±1

4

MAX16060

Prasaja

3.3, 2.5, 1.8, 0.62 (adj)

±1

6

LTC2936

jendhela

0.2 nganti 5.8 (Programmable)

±1

7

MAX42500

jendhela

0.1 nganti 5.5 (Programmable)

±1

MAX16161: Supervisor Pasokan NanoPower kanthi Power-Up Bebas Glitch lan Reset Manual

MAX16135: ± 1% Low-Voltage, Kotak-Voltage Pengawas Jendela

LTC2963: ± 0.5% Quad Configurable Supervisor karo Watchdog Timer

MAX16193: ± 0.3% Akurasi Sirkuit Pengawas Jendela-Detektor Kanal Ganda

Jendhela Voltage Pengawas
Jendhela voltage supervisor digunakake kanggo mesthekake FPGAs operate ing vol amantage rentang spesifikasi. Padha nindakake iki dening gadhah undervoltage (UV) lan overvoltage (OV) batesan lan ngasilake sinyal output reset yen ngluwihi jendhela toleransi supaya kesalahan sistem lan nyegah karusakan kanggo FPGAs lan piranti Processing liyane. Ana rong bab utama kanggo nimbang nalika milih vol jendhelatage supervisor: Toleransi lan Ambang Akurasi.
Toleransi minangka kisaran ing sekitar nilai sing diawasi nominal sing nyetel overvoltage lan undervoltage ambang. Nalika, Akurasi Ambang, biasane ditulis ing persentage, punika gelar saka conformance saka nyata kanggo batesan reset target.

Undervoltage lan overvoltage variasi ambang karo Ambang
Akurasi

OV_TH (maks) OV_TH
OV_TH (min)
VIN_NOM
UV_TH (maks) UV_TH
UV_TH (min)

+ACC% -ACC% +TOL%
-TOL% +ACC% -ACC%

Milih Jendela Toleransi Tengen
Milih supervisor jendhela karo toleransi padha vol intitage requirement bisa mimpin kanggo malfunctions amarga akurasi ambang. Nyetel toleransi sing padha karo syarat operasi FPGA bisa micu output reset cedhak overvol maksimumtage ambang OV_TH (maks) lan undervol minimaltage ambang UV_TH (min). Tokoh ing ngisor iki nggambarake setelan toleransi (a) padha karo inti voltage toleransi vs (b) ing inti voltage toleransi.

MUNGKIN REGION THRESHOLD nyata njaba CORE VOLTAGE SPESIFIKASI

OV_TH (maks) ± AKURASI

MUNGKIN WILAYAH ATAS AKTUAL ING CORE VOLTAGE TOL. SPEC

OV_TH (maks) ± AKURASI

Inti VOLTAGE SPESIFIKASI TOLERANSI

± JENDELA TOLERANSI

Inti VOLTAGE SPESIFIKASI TOLERANSI

± JENDELA TOLERANSI

MUNGKIN REGION THRESHOLD nyata njaba CORE VOLTAGE SPESIFIKASI
Ngluwihi inti voltage toleransi spec nanging ora dideteksi
(a)

± AKURASI UV_TH (min)

± AKURASI UV_TH (min)
(b)

Dampak Akurasi Ambang
Mbandhingake rong jendhela voltage supervisor karo akurasi ambang beda ngawasi vol inti padhatage rel pasokan. Supervisor kanthi akurasi ambang sing luwih dhuwur bakal nyimpang luwih sithik saka watesan ambang dibandhingake karo vol.tage supervisor karo akurasi ngisor. Priksa gambar ing ngisor iki, pengawas jendhela kanthi akurasi sing luwih murah (a) nggawe jendhela sumber daya sing sempit amarga sinyal output reset bisa negesake ing ngendi wae ing jarak ngawasi UV lan OV. Ing aplikasi kanthi regulasi sumber daya sing ora bisa dipercaya, iki bisa nyebabake sistem sing luwih sensitif sing rawan osilasi. Ing sisih liya, pengawas kanthi akurasi ambang dhuwur (b) nggedhekake kisaran iki kanggo nyedhiyakake jangkauan operasi sing luwih aman kanggo sumber daya sing nambah kinerja sistem sakabèhé.
Power Supply Sequencing kanggo AMD lan Intel FPGAs
FPGA modern nggunakake pirang-pirang voltage ril kanggo kinerja optimal. Keperluan urutan power-up lan power-down sing ditemtokake penting kanggo linuwih FPGA. Urutan sing ora bener ngenalake gangguan, kesalahan logika, lan malah karusakan permanen ing komponen FPGA sing sensitif. Piranti Analog nawakake macem-macem sirkuit pengawasan / urutan sing dirancang khusus kanggo ngatasi tantangan manajemen daya FPGA. Piranti kasebut ngatur urutan daya munggah lan mudhun saka macem-macem voltage ril, njamin sing saben ril tekan vol ditetepake sawijiningtage tingkat ing sawijining dibutuhake ramp wektu lan urutan. Solusi manajemen daya iki nyuda arus inrush, nyegah voltage undershoot / overshoot kahanan, lan pungkasanipun njogo integritas desain FPGA Panjenengan

MAX16165
Highly Integrated, 4-Channel Sequencer lan Supervisor
(Widest Voltage Range Sequencer ing Jejak Paling Cilik kanthi Pengawasan Terpadu)
· 2.7V nganti 16.0V Wide Operating Voltage · Monitor Nganti Lima Voltages lan Urutan Nganti Papat Voltages · Daya-Mati ing Urutan Reverse utawa Bebarengan · Daisy-Chain Unlimited · Kapasitor-Adjustable Sequencing Tundha lan Power-Good Timeout

EN 5V

UVSET VDD

ABP

ON
1.0V SET1 1.0V SET2 1.8V SET3 1.5V SET4
0.5 V IOS

C ON T ROL LOGIKA

F AUL T MA X16 165
OFF OUT1 OUT2 OUT3 OUT4
POK D ON E

D LY

PGT

GND

UVSET VDD ON

ABP

F AUL T

MA X16 165

OFF

SET1 1.2 V
SET2 1.3 5V
SET3 2.5 V
SET4 3.3 V

C ON T ROL LOGIKA

OUT1 OUT2 OUT3 OUT4

0.5 V IOS

POK D ON E

D LY

PGT

GND

1.0 V
1.0 V 1.8 V
1.5 V 1.2 V 1.3 5V 2.5 V 3.3 V

D CD CD CD CD CD CD CD C
D CD CD CD CD CD CD CD C

1.5V 1.8V 1.0V 1.0V

3.3V 2.5V 1.35V 1.2V

Z YNQ -70 15
VCCINT VCCBRAM MGTAVCC VCCPINT VCCAUX VCCO_1.8VCCO_MIO 0/1 VCCPAUX VCCPLL VCCADC VCCO_1.5V VCCO_DDR VCCO_1.2V MGTAVT T VCCO_1.35V VCCO_2.5V VCCO_3.3.
RESET
Urutan Pasokan Daya Cascaded kanggo AMD Zynq 7015

Power Supply Sequencing mbutuhake 8 Power Regulator nggunakake MAX16165

5 V 12 V

3.3 V
PG1 PG2 PG3 PG4

UVSET VDD

ABP

EN

ON

OFF

SET1

SET2 SET3 SET4

C ON T ROL LOGIKA

MA X16 165 F AUL T
OUT1 OUT2 OUT3 OUT4

0.5 V IOS

D LY

PGT

POK D ON E GND

SEQ1 SEQ2 SEQ3 SEQ4
SISTEM RESET NEXT MAX16165

12 V

VIN

VOUT

LTM4686

RUN

GPION

VIN

VOUT

LTM4702

EN

PG

VIN

VOUT

LTM4623

RUN

PG

VIN

VOUT

LTM4702

EN

PG

VIN

VOUT

LTM4623

RUN

PG

VIN

VOUT

MAKSIMAL M1 79 0 3

EN

RESET

VIN

VOUT

LTM4625

RUN

PG

0.72V/0. 85V

PG1 0.9 V

FILTER

0.85V/0. 9v PG2
1.2 V

FILTER

1.8 V PG3
1.8 V

FILTER

1.8 V/2.5 V/3.3 V PG4

KINTEX ULTRASCALE+

VCCINT

VMGT AVCC

VCCINT_IO VCCBRAM

VMGT AVTT

VCCAUX

VCCAUX_IO

VCCADC

VMGT AVCCAUX

VCCO

Power Supply Sequencing kanggo AMD Kintex Ultrascale +
karo voltage ngawasi nggunakake sirkuit pengawas MAX16193

MAX16165/MAX16166: Highly Integrated, 4-Channel Sequencer lan Supervisor

MAX16050
Sequencer-Supervisor karo Reverse-Sequencing Kapabilitas
(Gampang Digunakake, Four-/Lima-Voltage, Power-Up/Power-Down Sequencer/Monitor) · Monitor Nganti Lima Voltages lan Urutan Nganti Papat Voltages · Urutan Urutan sing Bisa Dipilih Pin · Kemampuan Ngurutake Malik nalika Mati · ± 1.5% Overvol Akurattage Monitoring karo Output Independen · Kapabilitas Daisy-Chaining kanggo Komunikasi Liwat Multiple Piranti
Urutan Pasokan Daya kanggo Intel® Arria® 10 GX kanthi Tingkat Data Transceiver <= 11.3 Gbps kanggo Aplikasi Chip-to-Chip
Katrangan: Power Group 1 – Blue Power Group 2 Orange Power Group 3 Red
MAX16050/MAX16051: Voltage Monitor / Sirkuit Sequencer karo Kapabilitas Reverse-Sequencing

Urutan Pasokan Daya kanggo Intel® Stratix® 10 GX (mung kanggo Paket HF35) kanthi 15 Gbps < Transceiver Data Rate <= 28.3 Gbps

Katrangan: Grup Daya 1 - Grup Daya Biru 2 Grup Daya Oranye 3 Grup Daya Abang 4 - Ijo

Power Supply Sequencing karo MAX16050 nggunakake kemampuan chaining daisy

Power Supply Sequencing

Jumlah Supplies ngawasi 1: cascadable
1: cascadable
2: cascadable

Nomer Part
MAX16895
MAX16052, MAX16053
MAX6819, MAX6820

Operasi Vrange
1.5 kanggo 5.5V 2.25 kanggo 28V
0.9 kanggo 5.5 V

2

MAX16041

3

MAX16042

2.2 kanggo 28 V

4
4: cascadable
5: cascadable 6: cascadable
8

MAX16043 MAX16165, MAX16166 MAX16050 MAX16051 LTC2937 ADM1168

2.7 kanggo 16 V
2.7 kanggo 16V 4.5 kanggo 16.5V
3 kanggo 16 V

8

ADM1169

3 kanggo 16 V

10: bisa kaskade (maks 4)

ADM1260

3 kanggo 16 V

12: cascadable

ADM1166

3 kanggo 16 V

17: cascadable

ADM1266

Piranti Desain

3 kanggo 15 V

Akurasi Ambang
1%
1.8%

Urutan Up Up

Metode Pemrograman
R, C
R, C

Paket 6 uDFN 6 SOT23

2.6%

Up

2.7% lan 1.5%

Up

0.80%
1.5% <1.5% <1% <1% <1% <1% <1%

Up, ReversePower Down Up, ReversePower Down Programmable Programmable
Bisa diprogram
Programmable Programmable

R, C
R, C
R's, C's R's, C's I2C, SMBus SMBus SMBus SMBus SMBus SMBus PMBus

6 SOT23 16 TQFN 20 TQFN
24 TQFN 20 WLP, 20L TQFN
28 TQFN
28 QFN 32 LQFP 32 LQFP, 40 LFCSP 40 LFCSP 40 LFCSP, 48 TQFP 64 LFCSP

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Dokumen / Sumber Daya

PERANGKAT ANALOG FPGAs Supervisory and Sequencing Devices [pdf] Manual Pamilik Virtex UltraScale, Virtex UltraScale, Virtex 7, Kintex UltraScale, Kintex UltraScale, Kintex 7, Artix UtraScale, Artix 7, Spartan Ultrascale, Spartan 7, Agilex 7 F, Agilex 7 I, Stratix 10, Stratix V, Stratix10 IV, Arria Cyclone V, GZ10, Arria Cyclone 10 GX, Cyclone 10 LP, Cyclone V, Cyclone IV, MAX XNUMX, FPGAs Supervisory and Sequencing Devices, FPGAs, Supervisory and Sequencing Devices, Sequencing Devices, Devices

Referensi

• Manual pangguna