Here is a phone from the mid 90s, the Ericsson GA628. Here visible is the front of the unit with keypad, & single line monochrome LCD for number display.
Battery & Rear
Here the battery is removed from the phone, showing the SIM card socket. At the top under the antenna stub is the socket for an external antenna.
Front Removed
Here the front is removed from the phone, PCB on left, rear of keypad on right. Microphone is at bottom of keypad, with speaker at the top. Top right of the PCB is the ringer buzzer, left is shield for RF amplifier.
Main PCB
Here is the back of the main PCB, RF sections on left & centre. Processing & memory on right.
Battery
This phone had a Ni-Mh battery, before Li-Ion batteries were introduced.
LCD
The LCD from the front of the phone is shown here. A simple dot matrix single line unit.
This is a HP PhotoSmart 375 portable photo printer. With built in card reader, screen & PictBridge.
Top of the printer showing the UI Buttons & Screen.
Front
Front of the unit, card reader slots at the top, Pictbridge USB connector at top left. Paper out slot at bottom. Cartridge door is on the right.
Cartridge Door
Here the cartridge door is open. Takes HP 95 Tri-Colour Inkjet Cartridge.
Battery Compartment
Battery compartment on the bottom of the unit. A Li-Ion battery pack can be installed here for mobile photo printing.
Bottom Label
Specifications label.
USB + Power
Power adaptor & USB connection for PC use.
Paper Tray
Rear door opened. Showing the paper feed tray.
Paper Feeder
Rear door has been removed in this shot. Paper feed roller & platen roller can be seen here.
Rear Cover Paper Feeder
Paper holder attached to rear door.
Top Cover
Bottom of the top cover, with connections for the buttons & LCD panel.
Main PCB
This is the main PCB of the unit. Controls all aspects of the printer. CPU in center, card reader sockets are along bottom edge. various support circuitry surrounds the CPU.
Rear
Rear shell has been removed here. Showing the main frame & the carriage drive motor on the left.
Carriage Drive
Closeup of the carriage drive motor & timing belt system. All the motors in this printer are DC servo motors, not steppers.
Main Drive Motor
Main drive motor, feeds paper, drives rollers, operates cleaning mechanism for the inkjets.
Shaft Encoder
Mainshaft encoder. Main drive motor is bottom right hand side with timing belt drive.
CPU
Closeup of the CPU. This is a Phillips ARM chip, unknown spec.
Card Reader Sockets
Detail of the card reader sockets, this unit takes all current types of Flash memory card.
An ICL barcode scanner from the 80s is shown here. This is the top of the unit with cover on.
Cover Removed
Plastic cover removed from the unit showing internal components. Main PSU on left, scan assembly in center. Laser PSU & Cooling fan on right. Laser tube at top.
Scan Motor
Closeup of laser scan motor. This unit scans the laser beam rapidly across the glass plate to read the barcode.
Controller PCB
View of the bottom of the unit, showing the controller PCB in the centre.
Scan Motor Driver
The 3-phase motor driver circuit for the scan motor. 15v DC powered.
Laser Unit
This is the laser unit disconnected from the back of the scanner. HT PSU is on right hand side, beam emerges from optics on left.
Laser Unit Label
This unit is date stamped 1987. The oldest laser unit i own.
This is a 1500W hairdryer, death caused by thermal switch failure.
Switch
This is the switch unit. Attached are two suppression capacitors & a blocking diode. Cold switch is on right.
Heating Element
Heating element unit removed from housing. Coils of Nichrome wire heat the air passing through the dryer. Fan unit is on right.
Thermal Switch
Other side of the heating element unit, here can be seen the thermal switch behind the element winding. (Black square object).
Fan Motor
The fan motor in this dryer is a low voltage DC unit, powered through a resistor formed by part of the heating element to drop the voltage to around 12-24v. Mounted on the back of the motor here is a rectifier assembly. Guide vanes are visible around the motor, to straighten the airflow from the fan blades.
Fan
5-blade fan forces air through the element at high speed. Designed to rotate at around 13,000RPM.
This is the Current Cost CC128 Real Time Power Meter. Shown here is the display unit, British Gas issued these free to some customers.
This unit measures current power draw in Watts, cost of power currently being used (requires unit price to be set), overall kWh usage over the past 1, 7 or 30 days & power trends during the day, night & evening. Also displays current time & current room temperature.
Display PCB
Here the front panel of the display has been un-clipped. At the bottom are the RJ-45 serial port & power connections.
This unit uses a PIC micro-controller as it’s CPU (PIC18F85J90) Just above & left of the CPU is the 433MHz SPD radio receiver module. The chips on the right of the CPU are a 25LC128 SPI serial EEPROM for data storage & a 74HC4060 14 stage binary counter, to which is connected the 32kHz clock crystal. The red wire around the top of the display is the antenna for the radio receiver.
For more info on the CC128 in general, the serial port & software for computer data logging, see this link
See this link for Current Cost’s list of software
Processor & Radio
Closeup of the ICs on the mainboard.
Transmitter Unit
Here we have the transmitter unit, with Current Transformer (CT). The red clamp fits around one of the electric meter tails & read the current going to the various circuits. This unit is powered by 2x D cells, rated at a life of 7 years.
Transmitter PCB
The PCB inside the transmitter. Again very minimal design, unknown controller IC, 433MHz radio transmitter on right hand side with wire antenna. Two barrel connectors on left hand side of board allow connection of up to two more CT clamps for measurement of 3-phase power. Centre of board is unmarked header. (ICSP?)
Current Transformer
CT unit. Inside is a coil of wire & an iron core which surrounds the cable to be measured.
This is a Western Digital drive recently removed from my laptop when it died of a severe head crash.
Top of drive can be seen here.
Top Removed
Here the cover has been removed from the drive, showing the platter, head arm & magnet. Yellow piece top left is head parking ramp.
Head Arm
The head assembly of the drive is shown here. The head itself is on the left hand end of the arm in the plastic parking ramp. The other end of the arm holds the voice coil part of the head motor, surrounded by the magnet.
Bottom Of Drive with PCB
Bottom of drive, with controller PCB. SATA interface socket at bottom.
PCB removed from bottom of drive. Spindle motor connections & connections to the head unit can be seen on the bottom of the drive unit.
Controller PCB. Supports the cache, interface & motor controller ICs.
Closeup of the motor driver IC, this controls the speed of the spindle motor precisely to 5,400RPM. Also controls the voice coil motor controlling the position of the head arm on the platters.
Interface IC closeup. This IC receives signals from the head assembly & processes them for transmission to the SATA bus. Also holds drive firmware, controls the Motor driver IC & all other functions of the drive.
Cache Memory IC.
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