User:天津风不是天津的风/沙盒:修订间差异

本页面所适用的版本可能已经过时,最后更新于1.11
无编辑摘要
第93行: 第93行:
| [[#Electronic mechanical engineering|电子机械工程]]
| [[#Electronic mechanical engineering|电子机械工程]]
| {{plainlist|
| {{plainlist|
* [[File:Reinforce_rate.png]] 增援率:{{green|+5%}}
* [[File:Reinforce_Rate.png]] 增援率:{{green|+5%}}
* 协同性:{{green|+4%}}
* 协同性:{{green|+4%}}
}}
}}
第100行: 第100行:
|width=340px
|width=340px
|name=基础型无线电
|name=基础型无线电
|file=Radio_1
|desc=一座基础的无线电收发设备可以让坦克在较小的规模内协调其战术机动。
|desc=一座基础的无线电收发设备可以让坦克在较小的规模内协调其战术机动。
|left={{Equipment/row|防御|+25.0%}}
|left={{Equipment/row|防御|+25.0%}}

2022年8月21日 (日) 07:12的版本

Engineering technology unlocks radar, nuclear weapons, jet and rocket engines, and improves research speed, encryption, decryption, and rocket artillery attack.

Engineering technology is separate from industrial technology, meaning the player must hire an engineering design company such as the USA's General Electric (+15%) in order to get research bonuses for engineering technology research. A nation may also be offered political decisions, for example "Give refuge to German scientists (+5%)" or "Give refuge to Italian scientists (+5%)", that give a bonus to engineering technology research for a 政治点数 (PP) cost.

Engineering research tree

Clicking on a technology icon leads to the appropriate table row.
Electronic mechanical engineeringRadioMechanical computingAtomic researchRadio detectionBasic fire control systemNuclear reactorExperimental rocketsDecimetric radarEncryption - polyalphabetical ciphersComputing machineDecryption - frequency analysisRocket enginesJet enginesImproved decimetric radarImproved fire control systemNuclear bombsImproved rocket enginesCentimetric radarEncryption - cyclic permutationsImproved computing machineDecryption - side-channel attackAdvanced rocket enginesImproved centimetric radarAdvanced fire control systemAdvanced centimetric radarEncryption - pulse-code modulationAdvanced computing machineDecryption - automated deductionEngineering research tree.png

Electronics

此分支可以解锁雷达和无线电,并提高研究速度,提升加密和解密能力。

科技 年份 基础研究时长/天 效果 装备模块
Electronic Mechanical Engineering.png
电子机械工程
在我们生活的这个时代里,电子设备不再仅用于照明取暖,它们还帮助我们思考交流。电子器件将在新世纪的军事情报工作中成为关键。
1936 100 Research time.png 科研速度:+3.0%
中央测距
Fire control system.png


在桅杆顶端的观察塔确定目标方位,然后把信息传达给炮组。

轻型火炮攻击:
+5.0%

Production cost.png 生产花费:
60.00

重型火炮攻击:
+5.0%

雷达科技分支

科技 年份 Base time 前置科技 效果 装备模块
Radio.png
无线电
应用业余无线电爱好者的发明并扩大FM无线电的使用可以减少干扰并让无线电技术拓展新用途。
1936 175 电子机械工程
  • Reinforce Rate.png 增援率:+5%
  • 协同性:+4%
基础型无线电
Radio 1.png


一座基础的无线电收发设备可以让坦克在较小的规模内协调其战术机动。

防御:
+25.0%

Production cost.png 生产花费:
0.50

突破:
+15.0%
Radio detection.png
Radio detection
Adopting the inventions of amateur radio operators and extending the use of FM radio will reduce radio interference and allow us to find new uses for radio technology.
1936 175 days Radio
  • 协同性:+1%
  • Unlocks Radar stationradar station with a limit of 1 per state
Decimetric radar.png
Decimetric radar
Many units rely on the element of surprise for their efficiency. Development of decimetric radar allows us to deprive them of this advantage.
1938 125 days Radio detection
Decimetric naval search radar
Radar 1.png


A central station high up in the ship's mast determines the range to the target and transmits that information to the gun mounts.

Surface detection:
+5

Production cost.png Production cost:
80
Improved radio


An improved radio allows commanders effective control over larger formations of tanks, permitting large-scale operational maneuvers.

Defense:
+45.0%

Production cost.png Production cost:
1.5

Breakthrough:
+30.0%
Improved decimetric radar.png
Improved decimetric radar
The use of radar has already proven crucial, but our decimetric radar sets are too few to ensure good coverage. Fitting more units with radar will allow us to maximize our technological edge.
1939 125 days Decimetric radar
Improved decimetric naval search radar
Radar 2.png


An improved radar set working in the 30cm wavelength range can accurately measure the range and bearing of even a small ship at ranges of over 25 kilometers.

Surface detection:
+7

Production cost.png Production cost:
110

Sub detection:
+2
Centimetric radar.png
Centimetric radar
New radar operating in the microwave bands enable us to detect objects too small for previous radars to pick up.
1940 125 days Improved decimetric radar
  • 协同性:+1%
  • Static anti air hit chance factor: +20%
  • Increases Radar stationradar station limit to 4 per state
Centrimetric gunnery radar
Radar 3.png


Equipped with cavity magnetrons, this radar set allows not only the detection of very small targets but even detecting the splashes of shells. This allows for true blind-fire against targets, even at night or in bad weather.

Light attack:
+5.0%

Naval AA attack:
+5.0%

Sub detection:
+6

Heavy attack:
+5.0%

Surface detection:
+12

Production cost.png Production cost:
140
Advanced radio


With a more powerful transmitter and better reception, this radio allows communications over dozens of kilometers and in the face of enemy jamming.

Defense:
+65.0%

Production cost.png Production cost:
2.5

Breakthrough:
+45.0%
Improved centimetric radar.png
Improved centimetric radar
New radar operating in the microwave bands enable us to detect objects too small for previous radars to pick up.
1941 125 days Centimetric radar
  • 协同性:+1%
  • Static anti air hit chance factor: +20%
  • Increases Radar stationradar station limit to 5 per state
Advanced centimetric radar.png
Advanced centimetric radar
Despite our advanced radars, there are still ways for the enemy to avoid detection. New developments like the Pulse-Doppler radar allows us to eliminate many of these limitations in our equipment.
1942 125 days Improved centimetric radar
  • 协同性:+1%
  • Static anti air hit chance factor: +20%
  • Increases Radar stationradar station limit to 6 per state
Integrated fire control radar
Radar 4.png


Working in the centimeter wavelength range, this radar set is fully integrated into the ships gunnery control and allows highly accurate gunfire control in all weather conditions.

Light attack:
+10.0%

Naval AA attack:
+10.0%

Sub detection:
+14

Heavy attack:
+10.0%

Surface detection:
+18

Production cost.png Production cost:
170

Computing technology

Technology Year Base time Prerequisites Effects
Mechanical computing.png
Mechanical computing
Constructing machines capable of advanced differential analysis will radically change what sort of machine-assisted calculations can be made.
1936 250 days Electronic mechanical engineering
  • Research time.png 科研速度:+4%
Computing machine.png
Computing machine
Developing a theoretical groundwork for modern computers and constructing electromechanical machines to start putting them into practice will be the first steps into this realm of possibilities.
1938 250 days Mechanical computing
  • Research time.png 科研速度:+5%
Improved computing machine.png
Improved computing machine
Electronic digital computers can now be made which are programmable. Although still expensive and large, these machines allow for intelligence analysis far beyond human capacity.
1940 250 days Computing machine
  • Research time.png 科研速度:+8%
Advanced computing machine.png
Advanced computing machine
Beginning to work on computers capable of storing programs and making use of transistors will put us on the path to a Digital Revolution where these machines may be used in nearly any field.
1942 250 days Improved computing machine
  • Research time.png 科研速度:+8%

Ships

Technology Year Base time Prerequisites Equipment modules
Basic fire control system.png
Basic fire control system
All fire of the ship's guns is controlled from a central position, ensuring a tighter grouping of shots and increases accuracy.
1936 100 days Mechanical computing
Director fire
Fire control system 1.png


A central director station fires all guns simultaneously at the command of the gunnery officer.

Light attack:
+10.0%

Naval AA attack:
+10.0%

Production cost.png Production cost:
90

Heavy attack:
+10.0%

Reliability:
−5.0%
Improved fire control system.png
Improved fire control system
By entering course, speed and distance of a target, a mechanical computer can accurately predict where the target will be when the next salvo is ready to fire.
1939 100 days Basic fire control system
Mechanical rangekeeper
Fire control system 2.png


A mechanical computer in the ship continuously updates range and bearing to target from information fed to it by rangefinders and other sensors.

Light attack:
+15.0%

Naval AA attack:
+15.0%

Production cost.png Production cost:
120

Heavy attack:
+15.0%

Reliability:
−7.5%
Advanced fire control system.png
Advanced fire control system
By entering course, speed and distance of a target, a mechanical computer can accurately predict where the target will be when the next salvo is ready to fire.
1941 100 days Improved fire control system
Ballistic computer
Fire control system 3.png


A more complex mechanical computer considers a large variety of factors when calculating the ballistic solutions to engage the target.

Light attack:
+20.0%

Naval AA attack:
+20.0%

Production cost.png Production cost:
180

Heavy attack:
+20.0%

Reliability:
−10.0%

Encryption methods

These technologies are only available without 抵抗运动 ‘La Résistance’ DLC. Computing machine, improved computing machine and advanced computing machine also count as encryption methods.

Technology Year Base time Prerequisites Effects
File:Encryption - polyalphabetical ciphers.png
Encryption - polyalphabetical ciphers
With new methods of communication comes new risks for interception. Rotor cipher machines can be used to allow for rapid, complex encryption.
1938 100 days Computing machine Encryption: +1
File:Encryption - cyclic permutations.png
Encryption - cyclic permutations
Limitation in the randomization of cipher machines can be exploited to break the ciphers. By improving the randomness of the rotor mechanics, we can make this kind of cryptanalysis more difficult.
1940 100 days Improved computing machine Encryption: +1
File:Encryption - pulse-code modulation.png
Encryption - pulse-code modulation
Technological improvements and hard-earned experience allows us to implement more traffic flow security measures in our communication.
1942 100 days Advanced computing machine Encryption: +1

Decryption methods

These technologies are only available without 抵抗运动 ‘La Résistance’ DLC. Computing machine, improved computing machine and advanced computing machine also count as decryption methods.

Technology Year Base time Prerequisites Effects
File:Decryption - frequency analysis.png
Decryption - frequency analysis
Cryptanalysis is increasingly becoming an advanced mathematical science. Systems like card catalogs and devices like cyclometers can aid the necessary work.
1938 150 days Computing machine Decryption: +1
File:Decryption - side-channel attack.png
Decryption - side-channel attack
The development of more sophisticated computers allows for new applications of cryptanalysis methods like differencing, which can be used to break advanced cyphers when combined with new hand codebreaking methods.
1940 150 days Improved computing machine Decryption: +1
File:Decryption - automated deduction.png
Decryption - automated deduction
The increased computation power that improved our cryptanalysis so far threatens to create nearly unbreakable ciphers in the future. To stay ahead, we must be prepared to work more aggressively on gaining inside information on the technology.
1942 150 days Advanced computing machine Decryption: +1

电子工程

此分支可以解锁雷达,无线电,并提高研究速度,加密和解密。

图标 科技 年份 前置科技 效果 基础研究时长
Electronic Mechanical Engineering.png 电子机械工程 1936 +3% 科研速度 85
Radio.png 无线电 1936 电子机械工程 +5% 增援率, 解锁通信连科技 148
Radio Detection.png 无线电侦测 1936 无线电 雷达站 Radar station.png 上限提升为 1 148
Decimetric Radar.png 分米波雷达 1938 无线电侦测 允许使用Decimetric Naval Search Radar,
雷达站 Radar station.png 上限提升为 2
106
Improved Decimetric Radar.png 改良分米波雷达 1939 分米波雷达 允许使用Improved Decimetric Naval Search Radar,
雷达站 Radar station.png 上限提升为 3
106
Centimetric Radar.png 厘米波雷达 1940 改良分米波雷达 允许使用Centimetric Gunnery Radar,
雷达站 Radar station.png 上限提升为 4,
Static Anti-air (building).png hit chance factor +20%
106
Improved Centimetric Radar.png 改良厘米波雷达 1941 厘米波雷达 雷达站 Radar station.png 上限提升为 5,
Static Anti-air (building).png hit chance factor +20%
106
Advanced Centimetric Radar.png 先进厘米波雷达 1942 改良厘米波雷达 允许使用 Integrated Fire Control Radar,
雷达站 Radar station.png 上限提升为 6,
Static Anti-air (building).png hit chance factor +20%
106
Mechanical Computing.png 机械式计算机 1936 电子机械工程 +4% 科研速度 212
File:Fire Control System Basic.png Basic Fire Control System 1936 机械式计算机炮手就位 Enables Director Fire 85
Computing Machine.png 基础计算机 1938 机械式计算机 +5% 科研速度 212
Encryption - Polyalphabetical Ciphers.png 加密 - 多表置换密码 1938 基础计算机抵抗运动No +1 加密 85
Decryption - Frequency Analysis.png 解密 - 频率分析 1938 基础计算机抵抗运动No +1 解密 127
File:Fire Control System Improved.png Improved Fire Control System 1936 基础计算机炮手就位 Enables Mechanical Rangekeeper 85
Improved Computing Machine.png 改良计算机 1940 基础计算机 +8% 科研速度 212
Encryption - Cyclic Permutations.png 加密 - 循环置换 1940 改良计算机抵抗运动No +1 加密 85
Decryption - Side-channel Attack.png 解密 - 旁路攻击 1940 改良计算机抵抗运动No +1 解密 127
File:Fire Control System Advanced.png Advanced Fire Control System 1936 改良计算机炮手就位 Enables Ballistic Computer 85
Advanced Computing Machine.png 先进计算机 1942 改良计算机 +8% 科研速度 212
Encryption - Pulse-code Modulation.png 加密 - 脉冲编码调制 1942 先进计算机抵抗运动No +1 加密 85
Decryption - Automated Deduction.png 解密 - 自动推演 1942 先进计算机抵抗运动No +1 解密 127

Nuclear technology

Technology Year Base time Prerequisites Effects
Atomic research.png
Atomic research
In nuclear fission, splitting the atom yields enormous amounts of energy and limitless destructive capability.
1940 500 days File:Research speed.png Research speed: +4%
Nuclear Reactor.png
Nuclear reactor
This building provides the state with production of enriched Uranium for use in Nuclear weapons.
1943 500 days Atomic research Unlocks Nuclear reactornuclear reactor with a limit of 1 per state
File:Nuclear bombs.png
Nuclear bombs
A project to construct an atomic bomb will be one of the most secretive and difficult tasks a nation can undertake, but, if successful, may change not only the course of today's wars but of the future of the world.
1945 500 days Nuclear reactor Enables nuclear bombs

Rocketry technology

Note: Bug forum:1521765 regarding guided missile graphics erroneously showing resource costs and production costs. Guided missiles are produced at no cost through rocket sites at the rate of 1 missile per day per site. Please disregard all guided missile costs shown in the table below.

Technology Year Base time Prerequisites Effects Equipment and modules
Experimental rockets.png
Experimental rockets
Advancing the science of rocketry by improving the range and reliability of liquid-fuel rockets will teach us enough about the technology to allow the construction of launch sites for more advanced models.
1943 150 days Unlocks Rocket siterocket site with a limit of 2 per state
Rocket engines.png
Rocket engines
Knowledge of rocket propulsion is reaching a point where we can construct flying bombs and rocket-powered aircraft, operating at previously unreachable speeds.
1944 200 days Experimental rockets Support rocket artillerySupport rocket artillery, Rocket artilleryRocket artillery, Truck-drawn rocket artilleryTruck-drawn rocket artillery and Motorized rocket artilleryMotorized rocket artillery:
  • Soft attack: +5%
Rocket Interceptor I
3Aluminum 2Tungsten 1橡胶
Rocket Interceptor I.png


Short range experimental interceptor powered by an unreliable chemical rocket engine.

Manpower.png Service manpower:
5

Air defense:
5

Agility:
30

Naval attack:
5

Max speed:
950 km/h

Production cost.png Production cost:
16

Range:
150 km

Air attack:
47

Air superiority:
1.0

Naval targetting:
10

Reliability:
30%
Basic guided missile
3Aluminum 3Tungsten
Guided missile 1.png


Unmanned flying bomb

Range:
500 km

Strategic bombing:
300

Naval targetting:
0.6

Reliability:
80%

Agility:
10

Naval attack:
1.5

Max speed:
640 km/h

Production cost.png Production cost:
54
Jet engines.png
Jet engines
A breakthrough in propulsion technology, the Jet Engine will enable the development of an entirely new generation of aircraft.
1944 200 days Rocket engines The development of Jet Engines is an essential prerequisite for the development of jet powered aircraft. This must be researched before you can research advanced aircraft
Gas turbine


An turbine developed from jet engines. High fuel consumption, but the highest speed of any engine at a given Engine Size.

Max speed:
+0.5 km/h

Reliability:
−10%

Production cost.png Production cost:
3

Max speed:
+25%

Fuel usage:
+4
Improved rocket engines.png
Improved rocket engines
The first long-range ballistic missiles can be built and made ever more precise, reaching distant enemy cities and even into space.
1945 150 days Rocket engines Support rocket artillerySupport rocket artillery, Rocket artilleryRocket artillery, Truck-drawn rocket artilleryTruck-drawn rocket artillery and Motorized rocket artilleryMotorized rocket artillery:
  • Soft attack: +5%
Rocket Interceptor II
3Aluminum 3Tungsten 1橡胶
Rocket Interceptor II.png


Short range interceptor powered by a slightly more reliable chemical rocket engine.

Manpower.png Service manpower:
5

Air defense:
7

Agility:
36

Naval attack:
5

Max speed:
1100 km/h

Production cost.png Production cost:
18

Range:
300 km

Air attack:
56

Air superiority:
1.0

Naval targetting:
10

Reliability:
50%
Improved guided missile
3Aluminum 3Tungsten
Guided missile 2.png


Better unmanned flying bomb

Range:
640 km

Strategic bombing:
450

Naval targetting:
0.6

Reliability:
80%

Agility:
10

Naval attack:
1.5

Max speed:
5760 km/h

Production cost.png Production cost:
54
Advanced rocket engines.png
Advanced rocket engines
The future of rocketry opens up possibilities like intercontinental missiles, the range of which knows few limits while the payloads grow more lethal.
1946 150 days Improved rocket engines Support rocket artillerySupport rocket artillery, Rocket artilleryRocket artillery, Truck-drawn rocket artilleryTruck-drawn rocket artillery and Motorized rocket artilleryMotorized rocket artillery:
  • Soft attack: +5%
Rocket Interceptor III
3Aluminum 3Tungsten 1橡胶
Rocket Interceptor III.png


We have finally worked out most of the problems with the rocket engines and the Rocket Interceptor is now a solid close range defender of facilities.

Manpower.png Service manpower:
5

Air defense:
10

Agility:
60

Naval attack:
5

Max speed:
1150 km/h

Production cost.png Production cost:
20

Range:
500 km

Air attack:
60

Air superiority:
1.0

Naval targetting:
10

Reliability:
80%
Advanced guided missile
3Aluminum 3Tungsten
Guided missile 3.png


Best unmanned flying bomb

Range:
11,000 km

Strategic bombing:
600

Naval targetting:
0.6

Reliability:
80%

Agility:
10

Naval attack:
1.5

Max speed:
9999 km/h

Production cost.png Production cost:
54

hoi4fr:Ingénierie