The Xiaomi Redmi Note 9 Pro 5G and the vivo V19 (Indonesia variant) represent compelling options in the mid-range smartphone market. While both aim to deliver a solid user experience, they diverge significantly in their core hardware, particularly in chipset and charging capabilities. This comparison dissects these differences to determine which device best suits your needs.
🏆 Quick Verdict
For the average user prioritizing performance and future-proofing, the Xiaomi Redmi Note 9 Pro 5G is the clear winner. Its Snapdragon 750G offers a substantial performance uplift over the Snapdragon 675 in the vivo V19, coupled with significantly faster 33W charging. The vivo V19 remains a viable option for basic tasks, but struggles to compete in demanding scenarios.
| Network |
|---|
| 2G bands | GSM 850 / 900 / 1800 / 1900 | GSM 850 / 900 / 1800 / 1900 |
| 3G bands | HSDPA 850 / 900 / 2100 | HSDPA 850 / 900 / 1900 / 2100 |
| 4G bands | 1, 3, 5, 8, 40 | 1, 3, 5, 7, 8, 34, 38, 39, 40, 41 |
| 5G bands | - | 1, 3, 41, 78, 79 SA/NSA/Sub6 |
| Speed | HSPA, LTE | HSPA, LTE, 5G |
| Technology | GSM / HSPA / LTE | GSM / CDMA / HSPA / EVDO / LTE / 5G |
| | - | CDMA2000 1xEV-DO |
| Launch |
|---|
| Announced | 2020, March 10. Released 2020, March 26 | 2020, November 26 |
| Status | Discontinued | Available. Released 2020, December 01 |
| Body |
|---|
| Build | Glass front, plastic back, plastic frame | Glass front (Gorilla Glass 5), glass back (Gorilla Glass 5) |
| Dimensions | 159 x 74.2 x 8.5 mm (6.26 x 2.92 x 0.33 in) | 165.4 x 76.8 x 9 mm (6.51 x 3.02 x 0.35 in) |
| SIM | Nano-SIM + Nano-SIM | Nano-SIM + Nano-SIM |
| Weight | 176 g (6.21 oz) | 215 g (7.58 oz) |
| | - | IP53, dust and splash resistant |
| Display |
|---|
| Protection | Corning Gorilla Glass | Corning Gorilla Glass 5 |
| Resolution | 1080 x 2400 pixels, 20:9 ratio (~409 ppi density) | 1080 x 2400 pixels, 20:9 ratio (~395 ppi density) |
| Size | 6.44 inches, 100.1 cm2 (~84.9% screen-to-body ratio) | 6.67 inches, 107.4 cm2 (~84.6% screen-to-body ratio) |
| Type | Super AMOLED | IPS LCD, HDR10, 120Hz, 450 nits (typ) |
| Platform |
|---|
| CPU | Octa-core (2x2.0 GHz Kryo 460 Gold & 6x1.7 GHz Kryo 460 Silver) | Octa-core (2x2.2 GHz Kryo 570 & 6x1.8 GHz Kryo 570) |
| Chipset | Qualcomm SDM675 Snapdragon 675 (11 nm) | Qualcomm SM7225 Snapdragon 750G 5G (8 nm) |
| GPU | Adreno 612 | Adreno 619 |
| OS | Android 10, Funtouch 10.0 | Android 10, MIUI 12 |
| Memory |
|---|
| Card slot | microSDXC (dedicated slot) | microSDXC (uses shared SIM slot) |
| Internal | 128GB 8GB RAM, 256GB 8GB RAM | 128GB 6GB RAM, 128GB 8GB RAM, 256GB 8GB RAM |
| | UFS 2.1 | UFS 2.2 |
| Main Camera |
|---|
| Features | LED flash, HDR, panorama | Dual-LED dual-tone flash, HDR, panorama |
| Quad | 48 MP, f/1.8, (wide), 1/2.0", 0.8µm, PDAF
8 MP, f/2.2, 13mm (ultrawide), 1/4.0", 1.12µm
2 MP (macro)
Auxiliary lens | 108 MP, f/1.8, 26mm (wide), 1/1.52", 0.7µm, PDAF
8 MP, f/2.2, 118˚ (ultrawide), 1/4.0", 1.12µm
2 MP (macro)
Auxiliary lens |
| Video | 4K@30fps, 1080p@30/60fps | 4K@30fps, 1080p@30/60fps, gyro-EIS |
| Selfie camera |
|---|
| Features | HDR | HDR, panorama |
| Single | 32 MP, f/2.5, 23mm (wide), 1/2.8", 0.8µm | 16 MP, f/2.5, (wide), 1/3.06", 1.0µm |
| Video | 1080p@30fps | 1080p@30fps, gyro-EIS |
| Sound |
|---|
| 3.5mm jack | Yes | Yes |
| 35mm jack | Yes | Yes |
| Loudspeaker | Yes | Yes, with stereo speakers |
| | - | 24-bit/192kHz audio |
| Comms |
|---|
| Bluetooth | 5.0, A2DP, LE | 5.1, A2DP, LE |
| Infrared port | - | Yes |
| NFC | No | Yes |
| Positioning | GPS, GLONASS, GALILEO, BDS | GPS (L1+L5), GLONASS (G1), BDS (B1I+B2a), GALILEO (E1+E5a), QZSS (L1+L5) |
| Radio | FM radio | Unspecified |
| USB | USB Type-C 2.0, OTG | USB Type-C 2.0 |
| WLAN | Wi-Fi 802.11 a/b/g/n/ac, dual-band, Wi-Fi Direct | Wi-Fi 802.11 a/b/g/n/ac, dual-band, Wi-Fi Direct |
| Features |
|---|
| Sensors | Fingerprint (under display, optical), accelerometer, gyro, proximity, compass | Fingerprint (side-mounted), accelerometer, gyro, compass |
| | - | Virtual proximity sensing |
| Battery |
|---|
| Charging | 18W wired | 33W wired, 100% in 58 min |
| Type | 4500 mAh | Li-Po 4820 mAh |
| Misc |
|---|
| Colors | Arctic Blue, Crystal White | Gray, Blue, Red/Mint |
| Models | - | M2007J17C |
| Price | About 270 EUR | About 370 EUR |
vivo V19 (Indonesia)
- Established Brand Reputation
- Reliable for Basic Tasks
- Potentially more compact design (speculation)
- Outdated Snapdragon 675 chipset
- Slow 18W charging
- Lacks 5G connectivity
Xiaomi Redmi Note 9 Pro 5G
- Powerful Snapdragon 750G 5G chipset
- Ultra-fast 33W charging (100% in 58 mins)
- Future-proof 5G connectivity
- Likely better camera system
- Xiaomi's MIUI software can be polarizing
- Potentially larger and heavier design
Display Comparison
Neither device's display specifications are provided, so a direct comparison is limited. However, given the Redmi Note 9 Pro 5G's positioning, it likely features a higher refresh rate panel (90Hz or 120Hz) compared to the standard 60Hz expected on the vivo V19. This would translate to smoother scrolling and animations. Both likely utilize IPS LCD technology, common in this price bracket, and color accuracy will depend on software calibration.
Camera Comparison
Without detailed camera specifications, a precise comparison is difficult. However, the Redmi Note 9 Pro 5G, being a 'Pro' model, likely features a more sophisticated camera system. While both phones likely include multiple lenses, the Redmi Note 9 Pro 5G is more likely to have a larger primary sensor and potentially optical image stabilization (OIS), resulting in better low-light performance and sharper images. Image processing algorithms will also differ, with Xiaomi often favoring more vibrant, saturated colors.
Performance
The core difference lies in the chipsets. The Xiaomi Redmi Note 9 Pro 5G’s Snapdragon 750G (8nm) is a significant upgrade over the vivo V19’s Snapdragon 675 (11nm). The 8nm process node of the 750G is more efficient, leading to better thermal management and sustained performance. The 750G’s Kryo 570 cores, clocked at 2.2 GHz, outperform the 675’s Kryo 460 Gold cores at 2.0 GHz. This translates to faster app loading times, smoother multitasking, and a more enjoyable gaming experience on the Redmi Note 9 Pro 5G. The 5G modem in the 750G also provides future-proofing.
Battery Life
The vivo V19’s 18W charging is considerably slower than the Redmi Note 9 Pro 5G’s 33W charging, which Xiaomi claims reaches 100% in just 58 minutes. While battery capacity isn't specified for either device, the faster charging of the Redmi Note 9 Pro 5G is a significant advantage for users who frequently need to top up their phone quickly. The more efficient Snapdragon 750G may also contribute to slightly better battery life despite potentially having a similar capacity.
Buying Guide
Buy the vivo V19 (Indonesia) if you need a reliable smartphone for everyday tasks like calling, texting, and light social media use, and prioritize a familiar, established brand. Buy the Xiaomi Redmi Note 9 Pro 5G if you prefer a more powerful processor for gaming and multitasking, require faster charging speeds, and want 5G connectivity for future network compatibility.
Frequently Asked Questions
❓ Will the Snapdragon 750G in the Redmi Note 9 Pro 5G handle demanding games like PUBG Mobile smoothly?
Yes, the Snapdragon 750G is capable of running PUBG Mobile at high settings with stable frame rates. Its Adreno 619 GPU provides a substantial performance boost over the Adreno 610 in the Snapdragon 675, resulting in a smoother and more enjoyable gaming experience. Expect to be able to play at HD graphics and high frame rate settings.
❓ How much faster is the 33W charging on the Redmi Note 9 Pro 5G compared to the 18W charging on the vivo V19 in real-world use?
The 33W charging on the Redmi Note 9 Pro 5G is significantly faster. Xiaomi claims a full charge in 58 minutes. The vivo V19’s 18W charging will likely take well over 2 hours to fully charge from 0%, making the Redmi Note 9 Pro 5G a much more convenient option for users who need a quick top-up.
❓ Does the Redmi Note 9 Pro 5G support carrier aggregation for improved 5G speeds?
Yes, the Snapdragon 750G supports carrier aggregation, which allows it to combine multiple 5G channels for faster and more reliable data speeds. This is a crucial feature for maximizing the benefits of 5G networks, especially in areas with limited coverage.
