Toyota power units of the A series were one of the best developments that allowed the company to get out of the crisis in the 90s of the last century. The largest in volume was the 7A motor.

Do not confuse 7A and 7K engine. These power units have no related relationship. ICE 7K was produced from 1983 to 1998 and had 8 valves. Historically, the "K" series began its existence in 1966, and the "A" series in the 70s. Unlike the 7K, the A-series engine developed as a separate line of development for 16 valve engines.

The 7 A engine was a continuation of the refinement of the 1600 cc 4A-FE engine and its modifications. The volume of the engine increased to 1800 cm3, the power and torque increased, which reached 110 hp. and 156Nm, respectively. The 7A FE engine was produced at the main production of Toyota Corporation from 1993 to 2002. Power units of the "A" series are still produced at some enterprises using license agreements.

Structurally power unit It is made according to the in-line scheme of a gasoline four with two overhead camshafts, respectively, the camshafts control the operation of 16 valves. The fuel system is made injector with electronic control and distributor distribution of ignition. Timing belt drive. When the belt breaks, the valves do not bend. The block head is made similar to the block head of the 4A series engines.

There are no official options for refinement and development of the power unit. Supplied with a single number-letter index 7A-FE for picking different cars up until 2002. The successor to the 1800 cc drive appeared in 1998 and had the index 1ZZ.

Design improvements

The engine received a block with an increased vertical size, a modified crankshaft, a cylinder head, the piston stroke increased while maintaining the diameter.

The uniqueness of the design of the 7A engine is the use of a two-layer metal head gasket and a double-case crankcase. The upper part of the crankcase, made of aluminum alloy, was attached to the block and the gearbox housing.

The lower part of the crankcase was made of steel sheet, and made it possible to dismantle it without removing the engine during maintenance. The 7A motor has improved pistons. in a groove oil scraper ring there are 8 holes for draining oil into the crankcase.

The upper part of the cylinder block for fasteners is made similar to the ICE 4A-FE, which allows the use of a cylinder head from a smaller engine. On the other hand, the block heads are not exactly identical, as the 7A series has changed intake valve diameters from 30.0 to 31.0 mm, while the exhaust valve diameter has been left unchanged.

At the same time, other camshafts provide a larger intake and exhaust valve opening of 7.6 mm versus 6.6 mm on a 1600 cc engine.

Changes were made to the design of the exhaust manifold to attach the WU-TWC converter.

Since 1993, the fuel injection system has changed on the engine. Instead of single-stage injection into all cylinders, they began to use paired injection. Changes were made to the settings of the gas distribution mechanism. The opening phase of the exhaust valves and the closing phase of the intake and exhaust valves have been changed. That allowed to increase power and reduce fuel consumption.

Until 1993, the engines used the cold injection system used on the 4A series, but then, after the cooling system was finalized, this scheme was abandoned. The engine control unit remains the same, with the exception of two additional options: the ability to test the operation of the system and control the knock, which were added to the ECM for the 1800 cc engine.

Specifications and reliability

The 7A-FE had different characteristics. The motor had 4 versions. As a basic configuration, a 115 hp engine was produced. and 149Nm of torque. The most powerful version of the internal combustion engine was produced for the Russian and Indonesian markets.

She had 120 hp. and 157 Nm. for the American market, a "clamped" version was also produced, which produced only 110 hp, but with torque increased to 156 Nm. The weakest version of the engine produced 105 hp, just like the 1.6 liter engine.

Some engines are designated 7a fe lean burn or 7A-FE LB. This means that the engine is equipped with a lean-burn combustion system, which first appeared on Toyota engines in 1984 and was hidden under the acronym T-LCS.

LinBen technology made it possible to reduce fuel consumption by 3-4% when driving in the city and a little more than 10% when driving on the highway. But this same system reduced the maximum power and torque, so the evaluation of the effectiveness of this design improvement is twofold.

LB-equipped engines have been installed in Toyota Carina, Caldina, Corona and Avensis. Corolla cars have never been equipped with engines with such a fuel economy system.

In general, the power unit is quite reliable and not whimsical in operation. resource to first overhaul exceeds 300,000 km of run. During operation, attention must be paid electronic devices serving engines.

The overall picture is spoiled by the LinBurn system, which is very picky about the quality of gasoline and has an increased cost of operation - for example, it requires spark plugs with platinum inserts.

Main malfunctions

The main malfunctions of the engine are related to the functioning of the ignition system. The distributor spark supply system implies wear on the bearings of the distributor and gearing. As wear accumulates, spark timing can shift, resulting in either a misfire or loss of power.

High-voltage wires are very demanding on cleanliness. The presence of contamination causes a spark breakdown along the outer part of the wire, which also leads to engine tripping. Another cause of tripping is worn or dirty spark plugs.

Moreover, the operation of the system is also affected by carbon deposits formed when using flooded or iron-sulphurous fuel, and external contamination of the surfaces of the candles, which leads to a breakdown on the cylinder head housing.

The malfunction is eliminated by replacing the candles and high-voltage wires in the kit.

As a malfunction, freezing of engines equipped with the LeanBurn system in the region of 3000 rpm is often recorded. The malfunction occurs because there is no spark in one of the cylinders. Usually caused by wear on the platinum swivel.

With a new high voltage kit, it may be necessary to clean the fuel system to remove contaminants and restore injector function. If this does not help, then the malfunction can be found in the ECM, which may require a flashing or replacement.

Engine knock is due to the operation of valves that require periodic adjustment. (At least 90,000 km). The piston pins in 7A engines are pressed in, so an additional knock from this engine element is extremely rare.

Increased oil consumption is built into the design. The technical passport of the 7A FE engine indicates the possibility of a natural consumption in operation of up to 1 liter of engine oil per 1000 kilometers.

Maintenance and technical fluids

The manufacturer indicates gasoline with an octane number of at least 92 as the recommended fuel. The technological difference in determining the octane number according to Japanese standards and GOST requirements should be taken into account. Unleaded 95 fuel may be used.

Engine oil is selected by viscosity in accordance with the mode of operation of the car and the climatic features of the region of operation. Most fully covers all possible conditions synthetic oil viscosity SAE 5W50, however, for everyday average operation, 5W30 or 5W40 viscosity oil is sufficient.

For a more precise definition, please refer to the instruction manual. The capacity of the oil system is 3.7 liters. When replacing with a filter change, up to 300 ml of lubricant may remain on the walls of the internal channels of the engine.

Engine maintenance is recommended every 10,000 km. In case of heavily loaded operation, or use of the car in mountainous areas, as well as with more than 50 engine starts at temperatures below -15 ° C, it is recommended to halve the maintenance period.

The air filter is changed according to the state, but at least 30,000 km of run. The timing belt requires replacement, regardless of its condition, every 90,000 km.

N.B. When undergoing maintenance, a reconciliation of the engine series may be required. The engine number should be on the platform located at the rear of the engine under the exhaust manifold at the level of the generator. Access to this area is possible using a mirror.

Tuning and refinement of the 7A engine

The fact that the internal combustion engine was originally designed on the basis of the 4A series allows you to use the block head from a smaller engine and modify the 7A-FE engine to 7A-GE. Such a replacement will give an increase of 20 horses. When performing such a refinement, it is also desirable to replace the original oil pump on the unit from 4A-GE, which has a higher capacity.

Turbocharging of 7A series engines is allowed, but leads to a decrease in resource. Special crankshafts and liners for supercharging are not available.

Reliable Japanese engines

04.04.2008

The most common and by far the most widely repaired of Japanese engines is the Toyota 4, 5, 7 A - FE series engine. Even a novice mechanic, diagnostician knows about possible problems engines of this series.

I will try to highlight (collect into a single whole) the problems of these engines. There are few of them, but they cause a lot of trouble to their owners.

Date from scanner:

On the scanner, you can see a short but capacious date, consisting of 16 parameters, by which you can really evaluate the operation of the main engine sensors.
Sensors:

Oxygen sensor - Lambda probe

Many owners turn to diagnostics due to increased fuel consumption. One of the reasons is a banal break in the heater in the oxygen sensor. The error is fixed by the control unit code number 21.

The heater can be checked with a conventional tester on the sensor contacts (R- 14 Ohm)

Fuel consumption increases due to the lack of correction during warm-up. You will not be able to restore the heater - only a replacement will help. The cost of a new sensor is high, and it makes no sense to install a used one (their operating time is large, so this is a lottery). In such a situation, less reliable universal NTK sensors can be installed as an alternative.

The term of their work is short, and the quality leaves much to be desired, so such a replacement is a temporary measure, and it should be done with caution.

When the sensor sensitivity decreases, fuel consumption increases (by 1-3 liters). The operability of the sensor is checked by an oscilloscope on the diagnostic connector block, or directly on the sensor chip (number of switching).

temperature sensor

If the sensor does not work correctly, the owner will have a lot of problems. When the measuring element of the sensor breaks, the control unit replaces the sensor readings and fixes its value by 80 degrees and fixes error 22. The engine, with such a malfunction, will operate normally, but only while the engine is warm. As soon as the engine cools down, it will be problematic to start it without doping, due to the short opening time of the injectors.

There are frequent cases when the resistance of the sensor changes randomly when the engine is running at H.X. - the revolutions will float.

This defect is easy to fix on the scanner, observing the temperature reading. On a warm engine, it should be stable and not randomly change values ​​from 20 to 100 degrees.

With such a defect in the sensor, a “black exhaust” is possible, unstable operation on H.X. and as a consequence, increased consumption, as well as the impossibility of starting "hot". Only after 10 minutes of sludge. If there is no complete confidence in the correct operation of the sensor, its readings can be replaced by including a variable resistor of 1 kΩ or a constant 300 ohm in its circuit for further verification. By changing the readings of the sensor, the change in speed at different temperatures is easily controlled.

Position sensor throttle valve

A lot of cars go through the process of assembly and disassembly. These are the so-called "constructors". When removing the engine in the field and subsequent assembly, the sensors suffer, on which the engine is often leaned. When the TPS sensor breaks, the engine stops throttling normally. The engine bogs down when revving. The machine switches incorrectly. Error 41 is fixed by the control unit. When replacing a new sensor, it must be adjusted so that the control unit correctly sees the sign of X.X., with the gas pedal fully released (throttle closed). In the absence of a sign of idling, adequate regulation of H.X. will not be carried out. and there will be no forced idling mode during engine braking, which again will entail increased fuel consumption. On engines 4A, 7A, the sensor does not require adjustment, it is installed without the possibility of rotation.
THROTTLE POSITION……0%
IDLE SIGNAL……………….ON

MAP absolute pressure sensor

This sensor is the most reliable of all installed on Japanese cars. His resilience is simply amazing. But it also has a lot of problems, mainly due to improper assembly.

Either the receiving “nipple” is broken, and then any passage of air is sealed with glue, or the tightness of the supply tube is violated.

With such a gap, fuel consumption increases, the level of CO in the exhaust increases sharply up to 3%. It is very easy to observe the operation of the sensor on the scanner. The line INTAKE MANIFOLD shows the vacuum in the intake manifold, which is measured by the MAP sensor. When the wiring is broken, the ECU registers error 31. At the same time, the opening time of the injectors sharply increases to 3.5-5ms. and stop the engine.

Knock sensor

The sensor is installed to register detonation knocks (explosions) and indirectly serves as a "corrector" of the ignition timing. The recording element of the sensor is a piezoelectric plate. In the event of a sensor malfunction, or a break in the wiring, at over 3.5-4 tons of revs, the ECU fixes error 52. Sluggishness is observed during acceleration.

You can check the performance with an oscilloscope, or by measuring the resistance between the sensor output and the housing (if there is resistance, the sensor needs to be replaced).

crankshaft sensor

On 7A series engines, a crankshaft sensor is installed. A conventional inductive sensor is similar to the ABC sensor and is practically trouble-free in operation. But there are also confusions. With an interturn circuit inside the winding, the generation of pulses at a certain speed is disrupted. This manifests itself as a limitation of engine speed in the range of 3.5-4 tons of revolutions. A kind of cut-off, only on low revs. It is quite difficult to detect an interturn circuit. The oscilloscope does not show a decrease in the amplitude of the pulses or a change in frequency (during acceleration), and it is rather difficult for a tester to notice changes in Ohm's fractions. If you experience symptoms of speed limit at 3-4 thousand, simply replace the sensor with a known good one. In addition, damage to the master ring causes a lot of trouble, which is damaged by negligent mechanics when replacing the front crankshaft oil seal or timing belt. Having broken the teeth of the crown, and restored them by welding, they achieve only a visible absence of damage.

At the same time, the crankshaft position sensor ceases to adequately read information, the ignition timing begins to change randomly, which leads to a loss of power, precarious work engine and increased fuel consumption

Injectors (nozzles)

During many years of operation, the nozzles and needles of the injectors are covered with tar and gasoline dust. All this naturally interferes with the correct spray and reduces the performance of the nozzle. With severe pollution, a noticeable shaking of the engine is observed, fuel consumption increases. It is realistic to determine clogging by conducting a gas analysis; according to the readings of oxygen in the exhaust, one can judge the correctness of filling. A reading above one percent will indicate the need to flush the injectors (when correct installation timing and normal fuel pressure).

Or by installing the injectors on the stand, and checking the performance in the tests. Nozzles are easily cleaned by Lavr, Vince, both on CIP machines and in ultrasound.

Idle valve, IACV

The valve is responsible for engine speed in all modes (warm-up, idling, load). During operation, the valve petal becomes dirty and the stem is wedged. Turnovers hang on warming up or on X.X. (due to the wedge). Tests for changes in speed in scanners during diagnostics for this motor are not provided. The performance of the valve can be assessed by changing the readings of the temperature sensor. Enter the engine in the "cold" mode. Or, having removed the winding from the valve, twist the valve magnet with your hands. Jamming and wedge will be felt immediately. If it is impossible to easily dismantle the valve winding (for example, on the GE series), you can check its operability by connecting to one of the control outputs and measuring the duty cycle of the pulses while simultaneously controlling the RPM. and changing the load on the engine. On a fully warmed-up engine, the duty cycle is approximately 40%, by changing the load (including electrical consumers) an adequate increase in speed in response to a change in duty cycle can be estimated. When the valve is mechanically jammed, a smooth increase in the duty cycle occurs, which does not entail a change in the speed of H.X.

You can restore work by cleaning soot and dirt with a carburetor cleaner with the winding removed.

Further adjustment of the valve is to set the speed X.X. On a fully warmed-up engine, by rotating the winding on the mounting bolts, they achieve tabular revolutions for this type of car (according to the tag on the hood). Having previously installed the jumper E1-TE1 in the diagnostic block. On the “younger” 4A, 7A engines, the valve has been changed. Instead of the usual two windings, a microcircuit was installed in the body of the valve winding. We changed the valve power supply and the color of the winding plastic (black). It is already pointless to measure the resistance of the windings at the terminals.

The valve is supplied with power and a control signal of a rectangular shape with a variable duty cycle.

To make it impossible to remove the winding, they installed non-standard fasteners. But the wedge problem remained. Now, if you clean it with an ordinary cleaner, the grease is washed out of the bearings (the further result is predictable, the same wedge, but already because of the bearing). It is necessary to completely dismantle the valve from the throttle body and then carefully flush the stem with the petal.

Ignition system. Candles.

A very large percentage of cars come to the service with problems in the ignition system. When operating on low-quality gasoline, spark plugs are the first to suffer. They are covered with a red coating (ferrosis). There will be no high-quality sparking with such candles. The engine will work intermittently, with gaps, fuel consumption increases, the level of CO in the exhaust rises. Sandblasting is not able to clean such candles. Only chemistry (silit for a couple of hours) or replacement will help. Another problem is the increase in clearance (simple wear).

Drying of the rubber lugs of high-voltage wires, water that got in when washing the motor, which all provoke the formation of a conductive path on the rubber lugs.

Because of them, sparking will not be inside the cylinder, but outside it.
With smooth throttling, the engine runs stably, and with a sharp one, it “crushes”.

In this situation, it is necessary to replace both the candles and the wires at the same time. But sometimes (in the field), if replacement is impossible, you can solve the problem with an ordinary knife and a piece of emery stone (fine fraction). With a knife we ​​cut off the conductive path in the wire, and with a stone we remove the strip from the ceramics of the candle.

It should be noted that it is impossible to remove the rubber band from the wire, this will lead to the complete inoperability of the cylinder.

Another problem is related to the incorrect procedure for replacing candles. The wires are pulled out of the wells with force, tearing off the metal tip of the rein.

With such a wire, misfires and floating revolutions are observed. When diagnosing the ignition system, you should always check the performance of the ignition coil on the high-voltage arrester. The most simple check- With the engine running, look at the spark on the arrester.

If the spark disappears or becomes filamentous, this indicates an interturn circuit in the coil or a problem in high voltage wires. A wire break is checked with a resistance tester. Small wire 2-3k, then to increase the long 10-12k.

The closed coil resistance can also be checked with a tester. The resistance of the secondary winding of the broken coil will be less than 12 kΩ.
The next generation coils do not suffer from such ailments (4A.7A), their failure is minimal. Proper cooling and wire thickness eliminated this problem.
Another problem is the current oil seal in the distributor. Oil, falling on the sensors, corrodes the insulation. And when exposed high voltage the slider is oxidized (covered with a green coating). The coal turns sour. All this leads to disruption of sparking.

In motion, chaotic shootings are observed (into the intake manifold, into the muffler) and crushing.

" Thin " malfunctions Toyota engine

On the modern engines Toyota 4A, 7A, the Japanese changed the firmware of the control unit (apparently for faster engine warm-up). The change is that the engine reaches idle speed only at 85 degrees. The design of the engine cooling system was also changed. Now a small cooling circle intensively passes through the head of the block (not through the pipe behind the engine, as it was before). Of course, the cooling of the head has become more efficient, and the engine as a whole has become more efficient. But in winter, with such cooling during movement, the temperature of the engine reaches a temperature of 75-80 degrees. And as a result, constant warm-up revolutions (1100-1300), increased fuel consumption and nervousness of the owners. You can deal with this problem either by insulating the engine more strongly, or by changing the resistance of the temperature sensor (by deceiving the computer).

Butter

Owners pour oil into the engine indiscriminately, without thinking about the consequences. Few people understand that different types of oils are not compatible and, when mixed, form an insoluble porridge (coke), which leads to the complete destruction of the engine.

All this plasticine cannot be washed off with chemistry, it is only cleaned mechanically. It should be understood that if it is not known what type of old oil, then flushing should be used before changing. And more advice to the owners. Pay attention to the color of the oil dipstick handle. He is yellow. If the color of the oil in your engine is darker than the color of the pen, it's time to change instead of waiting for the virtual mileage recommended by the engine oil manufacturer.

Air filter

The most inexpensive and easily accessible element is the air filter. Owners very often forget about replacing it, without thinking about the likely increase in fuel consumption. Often, due to a clogged filter, the combustion chamber is very heavily polluted with burnt oil deposits, valves and candles are heavily contaminated.

When diagnosing, it can be erroneously assumed that wear is to blame valve stem seals, but the root cause is a clogged air filter, which increases the vacuum in the intake manifold when contaminated. Of course, in this case, the caps will also have to be changed.

Some owners do not even notice that garage rodents live in the air filter housing. Which speaks of their complete disregard for the car.

Fuel filteralso deserves attention. If it is not replaced in time (15-20 thousand mileage), the pump starts to work with overload, the pressure drops, and as a result, it becomes necessary to replace the pump.

Plastic pump parts impeller and check valve wear out prematurely.

The pressure drops

It should be noted that the operation of the motor is possible at a pressure of up to 1.5 kg (with a standard 2.4-2.7 kg). At reduced pressure, there are constant shots into the intake manifold, the start is problematic (after). The draft is noticeably reduced. It is correct to check the pressure with a pressure gauge. (access to the filter is not difficult). In the field, you can use the "return filling test". If, during engine operation, less than one liter flows out of the gasoline return hose in 30 seconds, low pressure can be judged. You can use an ammeter to indirectly determine the performance of the pump. If the current consumed by the pump is less than 4 amperes, then the pressure is squandered.

You can measure the current on the diagnostic block.

When using a modern tool, the process of replacing the filter takes no more than half an hour. Previously, this took a lot of time. Mechanics always hoped in case they were lucky and the bottom fitting did not rust. But often that is what happened.

I had to rack my brains for a long time with which gas wrench to hook the rolled-up nut of the lower fitting. And sometimes the process of replacing the filter turned into a “movie show” with the removal of the tube leading to the filter.

Today, no one is afraid to make this change.

Control block

Until 1998 release, control units did not have enough serious problems during operation.

The blocks had to be repaired only for the reason" hard polarity reversal" . It is important to note that all conclusions of the control unit are signed. It is easy to find on the board the necessary sensor output for testing, or wire ringing. The parts are reliable and stable in operation at low temperatures.
In conclusion, I would like to dwell a little on gas distribution. Many “hands on” owners perform the belt replacement procedure on their own (although this is not correct, they cannot properly tighten the crankshaft pulley). Mechanics make a quality replacement within two hours (maximum). If the belt breaks, the valves do not meet the piston and there is no fatal destruction of the engine. Everything is calculated to the smallest detail.

We tried to talk about the most common problems on Toyota A-series engines. The engine is very simple and reliable, and subject to very tough operation on “water-iron gasolines” and dusty roads of our great and mighty Motherland and the “maybe” mentality of the owners. Having endured all the bullying, to this day he continues to delight with his reliable and stable work, having won the status of the best Japanese engine.

I wish you all the earliest possible identification of problems and easy repair of the Toyota 4, 5, 7 A - FE engine!

Vladimir Bekrenev, Khabarovsk
Andrey Fedorov, Novosibirsk
© Legion-Avtodata

UNION OF AUTOMOBILE DIAGNOSTICS

Information on car maintenance and repair can be found in the book (books):

string(10) "error stat" string(10) "error stat"

In fact, we have the legendary 4a engine with increased block height and piston stroke, as a result of which the volume increased to 1.8 liters, the long-stroke engine design added excellent traction at low revs.

Petrol naturally aspirated engine 7A-FE

Design features

The 7A FE engine has the following design features of components and mechanisms:

• 16 valves, 4 for each cylinder;
• The camshafts are placed in plain bearings inside the cylinder head;
• Only one camshaft is connected to the belt;
• The intake camshaft is driven by the exhaust;
• To prevent rumble, the camshaft gear must be cocked;
• V-shaped arrangement of valves;
• Long-stroke motor design;
• EFI injection;
• cylinder head gasket metal package;
• Installation of different camshafts, depending on the car in which the engine is located;
• Non-floating piston pin.

The drive of the camshafts of the motors of the A series, the photo shows that the rotation from crankshaft is transmitted to the exhaust camshaft gear, after which it is transmitted to the intake shaft

The design of the motor is simple and reliable, phase shifters and geometry adjustments intake manifold no, the timing drive, thought out by the Japanese, does not bend the valve even if the belt breaks.

Service Schedule 7A-FE

This engine requires systematic maintenance within the specified time frame:

• Engine oil is recommended to be changed along with the filter every 10,000 runs;
• Fuel and air filters are recommended to be changed after 20,000 km;
• Candles require attention and replacement upon reaching 30 thousand km;
• Valve clearance adjustment is required every 30,000 runs;
• Inspection of hoses and couples of the cooling system requires systematic monthly control;
• The exhaust manifold will require replacement after 100,000 km;
• Replacing the timing belt is recommended every 100 thousand km, and its inspection every 10,000 km;
• The pump serves about 100,000 km.

Overview of faults and how to fix them

By virtue of design features the 7A-FE motor is prone to the following "diseases":

Knocking inside the engine	1) Wear of the piston-pin friction pair 2) Violation of thermal valve clearances 3) Wear of the cylinder-piston group (collision of the piston against the sleeve when shifting)	1) Replacement of fingers 2) Clearance adjustment
Increasing oil consumption	Malfunction piston rings or oil seals	Replacing rings and caps
Engine starts and stops	Damage associated with fuel system or ignition	Replacement fuel filter, fuel pump, inspection of the distributor, checking the spark plugs
floating speed	1) Clogged nozzles, throttle valve, IAC valve 2) Insufficient pressure in the fuel system	1) Cleaning nozzles, throttle and IAC valve 2) Replacing the fuel pump or checking the fuel pressure regulator
Increased vibration	1) Clogged nozzles, faulty spark plugs 2) Different compression in the cylinders	1) Cleaning or replacing candles and nozzles 2) Compression diagnostics, leak check

Problems with starting the engine and idling associated with the development of the resource of the engine temperature sensors. Breakage of the lambda probe entails increased fuel consumption and, as a result, a decrease in the resource of candles. Engine overhaul can be done with your own hands if you have the tools. The instruction manual describes the entire list of possible actions with the internal combustion engine.

List of car models in which 7A-FE was installed:

Toyota Avensis

• Toyota Avensis
  (10.1997 — 12.2000)
  hatchback, 1st generation, T220;
• Toyota Avensis
  (10.1997 — 12.2000)
  station wagon, 1st generation, T220;
• Toyota Avensis
  (10.1997 — 12.2000)
  sedan, 1st generation, T22.

Toyota Caldina

• Toyota Caldina
  (01.2000 — 08.2002)
  restyling, station wagon, 2nd generation, T210;
• Toyota Caldina
  (09.1997 — 12.1999)
  station wagon, 2nd generation, T210;
• Toyota Caldina
  (01.1996 — 08.1997)
  restyling, station wagon, 1st generation, T190.

Toyota Carina

• Toyota Carina
  (10.1997 — 11.2001)
  restyling, sedan, 7th generation, T210;
• Toyota Carina
  (08.1996 — 07.1998)
  sedan, 7th generation, T210;
• Toyota Carina
  (08.1994 — 07.1996)
  restyling, sedan, 6th generation, T190.

Toyota Carina E

• Toyota Carina E
  (04.1996 — 11.1997)
  restyling, hatchback, 6th generation, T190;
• Toyota Carina E
  (04.1996 — 11.1997)
  restyling, station wagon, 6th generation, T190;
• Toyota Carina E
  (04.1996 — 01.1998)
  restyling, sedan, 6th generation, T190;
• Toyota Carina E
  (12.1992 — 01.1996)
  station wagon, 6th generation, T190;
• Toyota Carina E
  (04.1992 — 03.1996)
  hatchback, 6th generation, T190;
• Toyota Carina E
  (04.1992 — 03.1996)
  sedan, 6th generation, T190.

Toyota Celica

• Toyota Celica
  (08.1996 — 06.1999)
  
• Toyota Celica
  (08.1996 — 06.1999)
  restyling, coupe, 6th generation, T200;
• Toyota Celica
  (10.1993 — 07.1996)
  coupe, 6th generation, T200;
• Toyota Celica
  (10.1993 — 07.1996)
  coupe, 6th generation, T200.

Toyota Corolla

Europe

• Toyota Corolla
  (01.1999 — 10.2001)
  restyling, station wagon, 8th generation, E110.

• Toyota Corolla
  (06.1995 — 08.1997)
  restyling, station wagon, 7th generation, E100;
• Toyota Corolla
  (06.1995 — 08.1997)
  restyling, sedan, 7th generation, E100;
• Toyota Corolla
  (08.1992 — 07.1995)
  station wagon, 7th generation, E100;
• Toyota Corolla
  (08.1992 — 07.1995)
  sedan, 7th generation, E100.

Toyota Corolla Spacio

• Toyota Corolla Spacio
  (04.1999 — 04.2001)
  restyling, minivan, 1st generation, E110;
• Toyota Corolla Spacio
  (01.1997 — 03.1999)
  minivan, 1st generation, E110.

Toyota Corona Premio

• Toyota Corona Premio
  (12.1997 — 11.2001)
  restyling, sedan, 1st generation, T210;
• Toyota Corona Premio
  (01.1996 — 11.1997)
  sedan, 1st generation, T210.

Toyota Sprinter

• Toyota Sprinter
  (04.1997 — 08.2002)
  restyling, station wagon, 3rd generation, E110.

Motor tuning options

The 7A-Fe engine is not designed for tuning, but the craftsmen put the head from the 4A-GE engine on the 7A block and it turns out 7A-GE, but it’s not enough to put the head on, you still need to select the pistons, adjust the air-fuel mixture, and the Toyota ECU does not allow you to fine-tune .

However, atmospheric tuning is possible in the following way:

• Increasing the degree of compression by washing down the cylinder head;
• Modernization of the cylinder head, an increase in the diameter of valves and seats;
• Replacement of the fuel pump and camshafts;
• Installing the cylinder head from the engine 4a ge.

You can also make a motor swap. Buy contract engine will not be difficult, the choice is huge: 3s-ge, 3s-gte, 4a-ge, 4a-gze. It is recommended to buy motors with a mileage of no more than 100 thousand km. and carefully check their condition before purchase.

List of engine modifications

There were about 6 modifications of the 7A FE, they differed in power, torque and operation in different modes. This is done because the engines were installed on different cars, different weights and sizes. Therefore, on some cars there were few native 105 hp. and Toyota engineers had to boost the cars with camshafts and an engine brains program:

• Maximum torque, N*m (kg*m) at rpm:
  • 150 (15) / 2600;
  • 150 (15) / 2800;
  • 155 (16) / 2800;
  • 155 (16) / 4800;
  • 156 (16) / 2800;
  • 157 (16) / 4400;
  • 159 (16) / 2800;
• Max Power, Horse power: 103-120.

Specifications 7A-FE 105-120 HP

The engine consists of a simple cast-iron block and an aluminum head, between them there is a metal packet gasket, the timing is driven by a belt. The two-camshaft head layout made it possible to implement the timing mechanism without the use of rocker arms. When the belt breaks, the motor does not bend the valve, such motors are called plug-in.

The technical characteristics of the 7A FE engine correspond to the following table values:

Engine volume, cc	1762
Maximum power, hp	103-120
Maximum torque, N * m (kg * m) at rpm.	150 (15) / 2600
Fuel used	Gasoline AI 92-95
Fuel consumption, l/100 km	Claimed: 4.6-10 Real: 8-15
engine's type	4-cylinder, 16-valve, DOHC
Cylinder diameter, mm	81
Piston stroke, mm	85,5
Compression, atm	10-13
Engine weight, kg	109
Ignition system	Trambler, Individual coil
What kind of oil to pour into the engine by viscosity	5W30
Which oil is best for the engine by manufacturer	Toyota
Oil for 7A-FE by composition	Synthetics semi-synthetics mineral
Engine oil volume	3 - 4 liters depending on the vehicle
Operating temperature	95°
ICE resource	claimed 300,000 km real 350,000 km
Adjustment of valves	washers
Intake manifold	Aluminum
Cooling system	forced, antifreeze
coolant volume	5.4 l
water pump	GMB GWT-78A 16110-15070, Aisin WPT-018
Candles for 7A-FE	BCPR5EY from NGK, Champion RC12YC, Bosch FR8DC
spark plug gap	0.85 mm
timing belt	Belt Timing 13568-19046
The order of operation of the cylinders	1-3-4-2
Air filter	Mann C311011
Oil filter	Vic-110, Mann W683
Flywheel	6 bolt mounting
Flywheel mounting bolts	M12x1.25 mm, length 26 mm
Valve stem seals	Toyota 90913-02090 intake Toyota 90913-02088 exhaust

Thus, the 7A-FE engine is the standard of Japanese reliability and unpretentiousness, it does not bend the valve, and its power reaches 120 horsepower. This engine is not intended for tuning, so it will be quite difficult to increase power and forcing will not bring significant results, but it is excellent in everyday use and with systematic maintenance will not bring trouble to its owner.

If you have any questions - leave them in the comments below the article. We or our visitors will be happy to answer them.

Engine Toyota 7A-FE 1.8 l.

Toyota 7A engine specifications

Production	Kamigo Plant Shimoyama Plant Deeside Engine Plant North Plant Tianjin FAW Toyota Engine's Plant No. one
Engine brand	Toyota 7A
Release years	1990-2002
Block material	cast iron
Supply system	injector
Type	in-line
Number of cylinders	4
Valves per cylinder	4
Piston stroke, mm	85.5
Cylinder diameter, mm	81
Compression ratio	9.5
Engine volume, cc	1762
Engine power, hp / rpm	105/5200 110/5600 115/5600 120/6000
Torque, Nm/rpm	159/2800 156/2800 149/2800 157/4400
Fuel	92
Environmental regulations	—
Engine weight, kg	—
Fuel consumption, l/100 km (for Corona T210) - city - track - mixed.	7.2 4.2 5.3
Oil consumption, g/1000 km	up to 1000
Engine oil	5W-30 10W-30 15W-40 20W-50
How much oil is in the engine	3.7
Oil change is carried out, km	10000 (preferably 5000)
Operating temperature of the engine, hail.	—
Engine resource, thousand km - according to the plant - on practice	n.a. 300+
tuning — potential - no loss of resource	n.a. n.a.
The engine was installed	Toyota Corolla Spacio Toyota Sprinter GeoPrizm

Malfunctions and repair of the 7A-FE engine

The Toyota 7A engine is another variation based on the main 4A engine, in which the short-stroke crankshaft (77 mm) was replaced with a knee with a stroke of 85.5 mm, respectively, and the height of the cylinder block increased. Otherwise, the same 4A-FE.
Only one version of this engine was produced, this is 7A-FE, depending on the setting, it produced from 105 hp. up to 120 hp A weak version of the 7A-FE Lean Burn is not recommended, the system is capricious and quite expensive to maintain. Otherwise, the engine is similar to 4A and its illnesses are the same: problems with the distributor, with sensors, the sound of piston pins, the sound of valves that everyone forgets to adjust on time, etc. full list trouble .
In 1998, the 7A-FE was replaced by new engine, about him a separate mention.

Tuning engine Toyota 7A-FE

Chip tuning. Atmo

In the atmospheric version, as with, nothing sensible will come out of the motor, you can shake up the whole engine, replace everything that changes, but this is completely pointless. Only turbocharging has some rationality.

Turbine on 7A-FE

You can put a turbine on a standard piston and blow up to 0.5 bar without problems, you only need a suitable kit, or you can cook and assemble it yourself. In addition to the turbine, you will need 360cc injectors, a Valbro 255 pump, an exhaust on 51 pipes and tuning for Abit or January 7.2, it will ride, but not for too long.

I will say IMHO.

On the engine compartment plate, I have the recommended API oil class, i.e. the use of oil of a lower class is not recommended. Above is possible. If it says SJ (for me), then you can pour oil of classes SJ, SL, SM. This classification characterizes the qualitative characteristics of the oil, its durability, purity, viscosity, fluidity, detergent and antioxidant properties. These characteristics affect the health and durability of the engine, its cleanliness.

The manufacturer does not provide any other restrictions.

The first parameter is to start a cold engine at street temperature (the lower the value, the more severe the frost, the oil will retain its viscosity characteristics and allow the engine to start).

The second - shows the degree of preservation of density during heating, in the mode of operation of the engine, which is more often characteristic of it.

From this we conclude that under average conditions:

The first digit of the index 5 (for winter) and 10 (for summer) is quite suitable for our conditions, if it is very cold in winter, then we use 0. At the same time, there is nothing wrong if you use 5 or 0 in summer - the engine warms up and this parameter no longer means anything. But if you use 10, 15 or even 20 in winter, then the engine simply will not start, and if it does, then the first minutes of engine operation on frozen oil will be a serious oil starvation caused by its low pumpability.

The second digit is a warm engine. If you are not a racer, do not spin the engine to red, do not exceed the speed limit on the highway, and do not live in Africa, then 30 is quite justified. If a working temperature you usually have an increased engine speed - you like to drive, tumble, you drive "sneakers on the floor" on the highway, the street temperature during the day is constantly above 30-35C, or last winter you changed the thermostat to "hot" - it makes sense to fill in oil with a higher index of 40 , 50, 60 (depending on the degree and number of matches of the listed categories).

Also, we must not forget that if the engine "eats" oil, then by increasing the second index you will reduce its appetite.

But here, too, you need to be friends with your head. For example, in Z-series engines, the timing chain drive is lubricated engine oil, and for normal lubrication, the manufacturer recommends an oil density of 20 or 30 (second index), it is quite obvious that with a higher oil density in normal engine operation, the chain may not be sufficiently lubricated.

AT general choice oil remains with the motorist, there are only recommendations that you can deviate from, but do it wisely and consciously. IMHO.)))))))))))))))