75.16x16mm COG LCD Module 160x32 ST7525 Negative Transmissive HTG16032G
Product Details:
Place of Origin: | Dongguan, China |
Brand Name: | HOTHMI |
Model Number: | HTG16032G |
Payment & Shipping Terms:
Minimum Order Quantity: | 2 |
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Delivery Time: | 25 days |
Payment Terms: | L/C, D/A, T/T, D/P, Western Union, MoneyGram |
Supply Ability: | 99999 |
Detail Information |
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Product Type: | COG | Show Contents: | 160x32 |
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Outline Size(mm): | 91.2x31.2x5.0 | Size Of View Window(mm): | 83.0x21.2 |
Display Size(mm): | 75.16x16.0 | Point Spacing(mm): | 0.43x0.43 |
Visual Angle: | 6H | Connection PIN Number: | FPC-22PIN |
Interface Mode: | MCU/8bit | Working Temperature ℃: | -20~70 |
Power Supply Voltage: | 3.3V | Driver Chip Model: | ST7525 |
High Light: | 16mm COG LCD Module,Transmissive COG LCD Module,160x32 Transmissive LCD Display |
Product Description
160x32 Graphic COG LCD ST7525 | FSTN-BLUE Display Negative Transmissive/HTG16032G
HTG16032G | Monochrome Graphic COG | 160x32 Pixels | Transflective LCD | Side White Backlight | FSTN (+) Positive Display | In stock
HTG16032G 160x32 graphic Chip-On-Glass (COG) Liquid Crystal Display shows dark pixels on a white background. This transflective LCD Display is visible with ambient light or a backlight while offering a wide operating temperature range from -20 to 70 degrees Celsius. It has an optimal view of 6:00, operates at 3.3V supply voltage and is RoHS compliant.
Product parameters
ITEM | STANDARD VALUE | UNIT |
Number of dots | 160x32 | dots |
Module dimension | 91.2x31.2x5.0 | mm |
View display area | 83.0x21.2 | mm |
Dot size | 0.43x0.43 | mm |
Dot pitch | 0.47x0.47 | mm |
Operating temp | -20~70 | ℃ |
Storage temp | -30~80 | ℃ |
Driving Method | 1/ 128 DUTY,1/ 12 BIAS,VOP= 3.3V | |
Viewing direction | 6H o'clock | |
Display mode | FSTN | |
Display type | TRANSMISSIVE / NEGATIVE | |
Driver IC | ST7525 | |
Backlight |
WHITE |
|
Product application | industrial control |
Terminal Function
Pin No. | Pin Name | Function |
1 | VG0 | LCD driving voltage for segments. |
2 | XV0 | LCD driving voltage for commons at positive frame. |
3 | V0 | LCD driving voltage for commons at negative frame |
4 | VDD2 | Analog power |
5 | VDD1 | Digital power |
6 | VSS | Negative power supply,0V |
7 | BM2 |
Microprocessor interface select pins. D7 BM2BM1 BMO Interface Mode 4-line serial interface 2C serial interiace 8-bit 8080 parallel interface 8-bit 6800 parallel interface Nole : The un-used pins are marked as “.." and should be fixed to “H or "L" by VDD1 or VSS1. |
8 | BM1 | |
9 |
BM0 |
|
10 | CS0 | Chip selection input |
11 |
A0 |
It determines whether the access is related to data or command. A0=“H” : Indicates that D[7:0] are display data. A0=“L” : Indicates that D[7:0] are control data. There is no A0 pin in I2C interface and should fix to “H” by VDD1. |
12 |
ERD |
Read/Write execution control pin. When parallel interface is selected: MPU Type 6800 series 8080 series ERD E IRD Description Read/rite control input pin.RW="H": When E is H", D[7:0] are in anoutput status.RW="L": Signals on D(7:0] are latched atthe falling edge of E signal. Read enable input pin. When /RD is "L", D[7:0] are in output status. Note : ERD is not used in serial interfaces and should fix to "H" by VDD1. |
13 |
RWR |
Read/Write execution control pin, When parallel interface is selected: MPU Type RWR Description Read/Write control input pin. 6800 series RW RW="H": read. RW="L": write. Write enable input pin. 8080 series WR Signals on D(7:0] will be latched at therising edge of WR signal. Note : RWR is not used in serial interfaces and should fix to "H" by VDD1. |
14 | RST |
Reset input pin. When RST is “L”, internal initialization is executed. |
15-22 | DB0-DB7 | 8bit Date bus |
All Products
Reliability Testing | Customers can expect all production parts to meet or exceed operational requirements over temperature, humidity, and vibration. |
Glass Cleanliness | Customers can expect glass to be protected by liners and presented mindful of cleanliness standards. This means glass will be clean of contaminants, fingerprints, and other foreign material. |
Bezel Appearance | Bezels will be uniformly painted free of foreign materials and distracting cosmetic blemishes. Our standards maintain a clean scratch-free surface. |
PCB Appearance | PCB’s are delivered with long-term reliability in mind. Finishes are free of bubbles, foreign contaminants, and meet all UL fire requirements. PCB materials will always be delivered within industry norms. PCB edges will be cleanly cut and void of burrs. |
Soldering | Soldering of all leaded and SMT components is consistent in providing the mechanical security and electrical connectivity. |
Consistency | Our manufacturing and inspection processes ensure product consistency from lot to lot. This means orders processed over the years will continually meet your expectations. We do this by exacting manufacturing specifications, with attention to detail in our processes, and by comparing to the golden units. |
Product Integrity | Quality in product manufacturing ensures integrity in construction. Customers can expect tight assembly without worry of loose parts or missing material. Our products will meet all environmental expectations including temp, humidity, & vibration conditions. |
Glass Color | While normal variations of glass color may occur (due to manufacturing tolerances), Newhaven Display maintains color compliance per internal approved color charts. These charts are maintained to ensure any minor glass deviations are identified and corrected as needed. |
ESD Protection & Safety | All devices are designed and handled in consideration of ESD protection. This includes ESD-SAFE packaging within anti-static bags, wraps, and trays. Customers are reminded to always follow ESD safety to best protect the devices. |
COG LCD Displays
Available in character and graphic formats, COG (Chip-On-Glass) LCD Displays are designed without a PCB. The LCD driver/controller is bonded directly to the glass of the display. This allows COG displays to be smaller in size, more cost effective and a highly customizable display solution compared to typical LCD modules with a board.